DIGIMAT LEARNING MANAGEMENT PLATFORM

Civil Engineering (8,913 Video Lectures)

Link NPTEL Course Name NPTEL Lecture Title
Link Advanced Geotechnical Engineering Lecture 1
Link Advanced Geotechnical Engineering Lecture 2
Link Advanced Geotechnical Engineering Lecture 3
Link Advanced Geotechnical Engineering Lecture 4
Link Advanced Geotechnical Engineering Lecture 5
Link Advanced Geotechnical Engineering Lecture 6
Link Advanced Geotechnical Engineering Lecture 7
Link Advanced Geotechnical Engineering Lecture 8
Link Advanced Geotechnical Engineering Lecture 9
Link Advanced Geotechnical Engineering Lecture 10
Link Advanced Geotechnical Engineering Lecture 11
Link Advanced Geotechnical Engineering Lecture 12
Link Advanced Geotechnical Engineering Lecture 13
Link Advanced Geotechnical Engineering Lecture 14
Link Advanced Geotechnical Engineering Lecture 15
Link Advanced Geotechnical Engineering Lecture 16
Link Advanced Geotechnical Engineering Lecture 17
Link Advanced Geotechnical Engineering Lecture 18
Link Advanced Geotechnical Engineering Lecture 19
Link Advanced Geotechnical Engineering Lecture 20
Link Advanced Geotechnical Engineering Lecture 21
Link Advanced Geotechnical Engineering Lecture 22
Link Advanced Geotechnical Engineering Lecture 23
Link Advanced Geotechnical Engineering Lecture 24
Link Advanced Geotechnical Engineering Lecture 25
Link Advanced Geotechnical Engineering Lecture 26
Link Advanced Geotechnical Engineering Lecture 27
Link Advanced Geotechnical Engineering Lecture 28
Link Advanced Geotechnical Engineering Lecture 29
Link Advanced Geotechnical Engineering Lecture 30
Link Advanced Geotechnical Engineering Lecture 31
Link Advanced Geotechnical Engineering Lecture 32
Link Advanced Geotechnical Engineering Lecture 33
Link Advanced Geotechnical Engineering Lecture 34
Link Advanced Geotechnical Engineering Lecture 35
Link Advanced Geotechnical Engineering Lecture 36
Link Advanced Geotechnical Engineering Lecture 37
Link Advanced Geotechnical Engineering Lecture 38
Link Advanced Geotechnical Engineering Lecture 39
Link Advanced Geotechnical Engineering Lecture 40
Link Advanced Geotechnical Engineering Lecture 41
Link Advanced Geotechnical Engineering Lecture 42
Link Advanced Geotechnical Engineering Lecture 43
Link Advanced Geotechnical Engineering Lecture 44
Link Advanced Geotechnical Engineering Lecture 45
Link Advanced Geotechnical Engineering Lecture 46
Link Advanced Geotechnical Engineering Lecture 47
Link Advanced Geotechnical Engineering Lecture 48
Link Advanced Geotechnical Engineering Lecture 49
Link Advanced Geotechnical Engineering Lecture 50
Link Advanced Geotechnical Engineering Lecture 51
Link Advanced Geotechnical Engineering Lecture 52
Link Advanced Geotechnical Engineering Lecture 53
Link Advanced Geotechnical Engineering Lecture 54
Link Advanced Geotechnical Engineering Lecture 55
Link Advanced Geotechnical Engineering Lecture 56
Link Advanced Geotechnical Engineering Lecture 57
Link Advanced Geotechnical Engineering Lecture 58
Link Advanced Geotechnical Engineering Lecture 59
Link Advanced Geotechnical Engineering Lecture 60
Link Soil Dynamics Lecture 1 - Introduction
Link Soil Dynamics Lecture 2 - Degrees of Freedom, SDOF System, Types of Vibrations
Link Soil Dynamics Lecture 3 - SDOF System, Types of Vibrations, Free Vibration
Link Soil Dynamics Lecture 4 - Problems on Tortional Motion
Link Soil Dynamics Lecture 5 - Damped Free Vibrations
Link Soil Dynamics Lecture 6 - Damped Free Vibrations, Definition of Critical Damping and problems
Link Soil Dynamics Lecture 7 - Decay of Motion
Link Soil Dynamics Lecture 8 - Forced Vibrations, Dynamic Magnification Factor
Link Soil Dynamics Lecture 9 - Maxwells Diagram of DMF, Discussion on Phase
Link Soil Dynamics Lecture 10 - Transmissibility Ratio, Response to Arbitrary, Step and Pulse Excitations
Link Soil Dynamics Lecture 11 - Response to Arbitrary, Step and Pulse Excitations, Response to Impact Load
Link Soil Dynamics Lecture 12 - Vibration Isolation, Vibrations Measuring Instruments
Link Soil Dynamics Lecture 13 - Solutions of Quiz Questions, Multi-Degree of Freedom (MDOF) Systems
Link Soil Dynamics Lecture 14 - (MDOF) System : Equation of Motion, Longitudinal Waves in an Infinitely long rod
Link Soil Dynamics Lecture 15 - 3 Dimensional Wave Propagation, Waves in semi-infinite media, Rayleigh Wave
Link Soil Dynamics Lecture 16 - Love Wave, Waves in layered medium, 3D case-Inclined wave, Earthquake Waves
Link Soil Dynamics Lecture 17 - Earthquake Waves; P-waves, S-waves, 3 circle method, Estimation of Earthquake Epicentre
Link Soil Dynamics Lecture 18 - Stresses in Soil Element, Field Tests, Seismic Reflection Test
Link Soil Dynamics Lecture 19 - Seismic Refraction Test, SASW Test, Laboratory & Model Tests
Link Soil Dynamics Lecture 20 - Centrifuge Tests Stress Strain Behavior of Cyclically Loaded Soils
Link Soil Dynamics Lecture 21 - Estimation of Gmax, Modulus Reduction Curves, Variation of Damping Ratio, Cyclic Plate load Test
Link Soil Dynamics Lecture 22 - Liquefaction, Preliminary sceening, Simplified Procedure for Liquefaction
Link Soil Dynamics Lecture 23 - Cyclic Stress Ratio, Evaluation of CRR, Correction Factors, Corrections for SPT
Link Soil Dynamics Lecture 24 - Becker Penetrometer Test (BPT), Cone Penetrometer Test (CPT), SPT v BPT, SASW Test
Link Soil Dynamics Lecture 25 - Types of Machine Foundations, Methods of Analysis, Design of Machine Foundations as per IS:2974 (Part-1)-1969
Link Soil Dynamics Lecture 26 - Tschebotarioff's
Link Soil Dynamics Lecture 27 - Problem on Tschebotarioff's method contd., Mass-Spring-Dashpot (MSD) Model
Link Soil Dynamics Lecture 28 - MSD Model- Yawing mode of Vibration, Use of MSD model for analysis
Link Soil Dynamics Lecture 29 - Problems on Use of MSD Model for Analysis, Rocking mode of Vibrations
Link Soil Dynamics Lecture 30 - Torsional Mode/Yawing Mode, Constant Force type excitation, EHS Theory
Link Soil Dynamics Lecture 31 - EHS Theory, Vibrational Control
Link Soil Dynamics Lecture 32 - Use of EHS Theory for analysis
Link Soil Dynamics Lecture 33 - Use of EHS Theory for analysis II
Link Soil Dynamics Lecture 34 - Liquefaction mitigation methods,Vibro Compaction,Densification Techniques
Link Soil Dynamics Lecture 35 - Soil Improvement methods,Dynamic Compaction,Reinforcement Techniques
Link Soil Dynamics Lecture 36 - Force-based Analysis,Dynamic analysis using MSD model
Link Soil Dynamics Lecture 37 - Behaviour of Subgrade Soil below Rail Track
Link Soil Dynamics Lecture 38 - Quiz
Link Structural Dynamics Lecture 1 - Introduction
Link Structural Dynamics Lecture 2 - Inverse Power Method
Link Structural Dynamics Lecture 3 - Dynamics of SDOF Structure
Link Structural Dynamics Lecture 4 - SDOF Response to Harmonic Loads
Link Structural Dynamics Lecture 5 - Response of SDOF Structure to Harmonic Loading
Link Structural Dynamics Lecture 6 - Response to Harmonic Loading
Link Structural Dynamics Lecture 7 - Response to Harmonic Loading (Continue...)
Link Structural Dynamics Lecture 8 - Transmissibility & Base Isolation
Link Structural Dynamics Lecture 9 - Dynamic Characteristics & Periodic Loading
Link Structural Dynamics Lecture 10 - Pulse Loading
Link Structural Dynamics Lecture 11 - Pulse Load Response Characteristics & Impulse Loading
Link Structural Dynamics Lecture 12 - Frequency Domain Response Analysis
Link Structural Dynamics Lecture 13 - Methods of Analysis for General Loading
Link Structural Dynamics Lecture 14 - Numerical Analysis of Response of Single Degree of Freedom Structure & Time Domain Approaches
Link Structural Dynamics Lecture 15 - Response Analysis of Single Degree of Freedom System for Earthquake Loads
Link Structural Dynamics Lecture 16 - Earthquake Response Analysis for Single Degree of Freedom Structures
Link Structural Dynamics Lecture 17 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 18 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 19 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 20 - Generalized Single Degree of Freedom Systems Equations of Motion & Free Vibrations
Link Structural Dynamics Lecture 21 - Equations of Motion for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 22 - Equations of Motion for Multi Degree of Freedom Systems
Link Structural Dynamics Lecture 23 - Multi Degree of Freedom Structure Equations of Motions
Link Structural Dynamics Lecture 24 - Multi Degree of Freedom Structure Equations of Motions & Free Vibration
Link Structural Dynamics Lecture 25 - Free Vibration for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 26 - Free Vibration for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 27 - Practical Free Vibration Analysis
Link Structural Dynamics Lecture 28 - Dynamic Response of Multi Degree of Freedom Systems
Link Structural Dynamics Lecture 29 - Dynamic Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 30 - Damping for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 31 - Earthquake Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 32 - Earthquake Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 33 - Dynamic Analysis of Buildings
Link Structural Dynamics Lecture 34 - Introduction to Dynamics of Continuous Systems
Link Structural Dynamics Lecture 35 - Free Vibration Response of Continuous Systems
Link Structural Dynamics Lecture 36 - Free Vibration & Dynamic Response of Continuous Systems
Link Structural Dynamics Lecture 37 - Dynamic Response of Continuous Systems
Link Structural Dynamics Lecture 38 - Examples for Dynamic Response of Continuous Systems
Link Watershed Management Lecture 1 - Introduction to Watershed Management
Link Watershed Management Lecture 2 - Watershed Management & Stakeholder Analysis
Link Watershed Management Lecture 3 - Watershed Management Policies
Link Watershed Management Lecture 4 - Sustainable Watershed Management
Link Watershed Management Lecture 5 - Agricultural Practices & Watershed Management
Link Watershed Management Lecture 6 - Soil Erosion & Conservation
Link Watershed Management Lecture 7 - Watershed Management in Arid Regions & Strategic Planning
Link Watershed Management Lecture 8 - Integrated Water Resources Management
Link Watershed Management Lecture 9 - Conjuctive Use of Water Resources
Link Watershed Management Lecture 10 - Rainwater Harvesting System
Link Watershed Management Lecture 11 - Rainwater Harvesting & Roof Catchment System
Link Watershed Management Lecture 12 - Watershed Characteristics
Link Watershed Management Lecture 13 - Watershed Delineation & Modeling
Link Watershed Management Lecture 14 - Hydrologic Processes
Link Watershed Management Lecture 15 - Watershed Modeling
Link Watershed Management Lecture 16 - Hydrologic Modeling
Link Watershed Management Lecture 17 - Numerical Watershed Modeling
Link Watershed Management Lecture 18 - Subsurface & Groundwater Flows
Link Watershed Management Lecture 19 - Social & Community Aspects of Watershed Management
Link Watershed Management Lecture 20 - Socio-economy, Private Sector Participation & Gender Issues
Link Watershed Management Lecture 21 - Integrated Development, Water Legislation & Implementation Issues
Link Watershed Management Lecture 22 - GIS & Applications in Watershed Management
Link Watershed Management Lecture 23 - Remote Sensing & Applications in Watershed Management
Link Watershed Management Lecture 24 - Decision Support Systems & Applications in Watershed Management
Link Watershed Management Lecture 25 - Integrated Watershed Modeling Using Numerical Methods, GIS & Remote Sensing
Link Watershed Management Lecture 26 - Applications of Knowledge Based Models in Watershed Management
Link Watershed Management Lecture 27 - Surface Water Quality & Pollution Issues
Link Watershed Management Lecture 28 - Groundwater Pollution Problems & Transport Processes
Link Watershed Management Lecture 29 - Water Quality Modeling
Link Watershed Management Lecture 30 - Environmental Guidelines for Water Quality Management
Link Watershed Management Lecture 31 - Storm Water Management
Link Watershed Management Lecture 32 - Urban Drainage System
Link Watershed Management Lecture 33 - Flood Routing
Link Watershed Management Lecture 34 - Flood Control & Management
Link Watershed Management Lecture 35 - Drought Assessment
Link Watershed Management Lecture 36 - Drought Analysis
Link Watershed Management Lecture 37 - Drought Mitigation
Link Watershed Management Lecture 38 - Water Conservation
Link Watershed Management Lecture 39 - Water Recycling
Link Watershed Management Lecture 40 - Water Reclaimation & Reuse
Link Fluid Mechanics Lecture 1 - Fluid Mechanics
Link Fluid Mechanics Lecture 2 - Fundamental Concepts of Fluid Flow & Fluid Statics
Link Fluid Mechanics Lecture 3 - Fluid Statics
Link Fluid Mechanics Lecture 4 - Fluid Statics
Link Fluid Mechanics Lecture 5 - Fluid Statics
Link Fluid Mechanics Lecture 6 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 7 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 8 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 9 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 10 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 11 - Kinematics & Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 12 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 13 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 14 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 15 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 16 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 17 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 18 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 19 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 20 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 21 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 22 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 23 - Dimensional Analysis
Link Fluid Mechanics Lecture 24 - Dimensional Analysis
Link Fluid Mechanics Lecture 25 - Dimensional Analysis
Link Fluid Mechanics Lecture 26 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 27 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 28 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 29 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 30 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 31 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 32 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 33 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 34 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 35 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 36 - Pipe Flow Systems
Link Fluid Mechanics Lecture 37 - Pipe Flow Systems
Link Fluid Mechanics Lecture 38 - Pipe Flow Systems
Link Fluid Mechanics Lecture 39 - Pipe Flow Systems
Link Fluid Mechanics Lecture 40 - Pipe Flow Systems
Link Fluid Mechanics Lecture 41 - Pipe Flow Systems
Link Fluid Mechanics Lecture 42 - Pipe Flow Systems
Link Soil Mechanics Lecture 1 - Soil Mechanics
Link Soil Mechanics Lecture 2 - Soil Mechanics
Link Soil Mechanics Lecture 3 - Soil Mechanics
Link Soil Mechanics Lecture 4 - Soil Mechanics
Link Soil Mechanics Lecture 5 - Soil Mechanics
Link Soil Mechanics Lecture 6 - Soil Mechanics
Link Soil Mechanics Lecture 7 - Soil Mechanics
Link Soil Mechanics Lecture 8 - Soil Mechanics
Link Soil Mechanics Lecture 9 - Soil Mechanics
Link Soil Mechanics Lecture 10 - Soil Mechanics
Link Soil Mechanics Lecture 11 - Compaction of Soils - I
Link Soil Mechanics Lecture 12 - Soil Mechanics
Link Soil Mechanics Lecture 13 - Soil Mechanics
Link Soil Mechanics Lecture 14 - Compaction of Soils - IV
Link Soil Mechanics Lecture 15 - Compaction of Soils - V
Link Soil Mechanics Lecture 16 - Compaction of Soils - VI
Link Soil Mechanics Lecture 17 - Effective Stress - I
Link Soil Mechanics Lecture 18 - Effective Stress - II
Link Soil Mechanics Lecture 19 - Effective Stress - III
Link Soil Mechanics Lecture 20 - Flow of water through soils - I
Link Soil Mechanics Lecture 21 - Flow of water through soils - II
Link Soil Mechanics Lecture 22 - Flow of water through soils - III
Link Soil Mechanics Lecture 23 - Flow of water through soils - IV
Link Soil Mechanics Lecture 24 - Flow of water through soils - V
Link Soil Mechanics Lecture 25 - Flow of water through soils - VI
Link Soil Mechanics Lecture 26 - Flow of water through soils - VII
Link Soil Mechanics Lecture 27 - Flow of water through soils - VIII
Link Soil Mechanics Lecture 28 - Soil Mechanics
Link Soil Mechanics Lecture 29 - Soil Mechanics
Link Soil Mechanics Lecture 30 - Soil Mechanics
Link Soil Mechanics Lecture 31 - Soil Mechanics
Link Soil Mechanics Lecture 32 - Soil Mechanics
Link Soil Mechanics Lecture 33 - Soil Mechanics
Link Soil Mechanics Lecture 34 - Soil Mechanics
Link Soil Mechanics Lecture 35 - Soil Mechanics
Link Soil Mechanics Lecture 36 - Soil Mechanics
Link Soil Mechanics Lecture 37 - Soil Mechanics
Link Soil Mechanics Lecture 38 - Soil Mechanics
Link Soil Mechanics Lecture 39 - Soil Mechanics
Link Soil Mechanics Lecture 40 - Soil Mechanics
Link Soil Mechanics Lecture 41 - Soil Mechanics
Link Soil Mechanics Lecture 42 - Soil Mechanics
Link Soil Mechanics Lecture 43 - Soil Mechanics
Link Soil Mechanics Lecture 44 - Soil Mechanics
Link Soil Mechanics Lecture 45 - Soil Mechanics
Link Soil Mechanics Lecture 46 - Soil Mechanics
Link Soil Mechanics Lecture 47 - Soil Mechanics
Link Soil Mechanics Lecture 48 - Soil Mechanics
Link Soil Mechanics Lecture 49 - Soil Mechanics
Link Soil Mechanics Lecture 50 - Soil Mechanics
Link Soil Mechanics Lecture 51 - Soil Mechanics
Link Soil Mechanics Lecture 52 - Soil Mechanics
Link Soil Mechanics Lecture 53 - Soil Mechanics
Link Soil Mechanics Lecture 54 - Soil Mechanics
Link Soil Mechanics Lecture 55 - Soil Mechanics
Link Soil Mechanics Lecture 56 - Soil Mechanics
Link Soil Mechanics Lecture 57 - Soil Mechanics
Link Structural Analysis II Lecture 1
Link Structural Analysis II Lecture 2
Link Structural Analysis II Lecture 3
Link Structural Analysis II Lecture 4
Link Structural Analysis II Lecture 5
Link Structural Analysis II Lecture 6
Link Structural Analysis II Lecture 7
Link Structural Analysis II Lecture 8
Link Structural Analysis II Lecture 9
Link Structural Analysis II Lecture 10
Link Structural Analysis II Lecture 11
Link Structural Analysis II Lecture 12
Link Structural Analysis II Lecture 13
Link Structural Analysis II Lecture 14
Link Structural Analysis II Lecture 15
Link Structural Analysis II Lecture 16
Link Structural Analysis II Lecture 17
Link Structural Analysis II Lecture 18
Link Structural Analysis II Lecture 19
Link Structural Analysis II Lecture 20
Link Structural Analysis II Lecture 21
Link Structural Analysis II Lecture 22
Link Structural Analysis II Lecture 23
Link Structural Analysis II Lecture 24
Link Structural Analysis II Lecture 25
Link Structural Analysis II Lecture 26
Link Structural Analysis II Lecture 27
Link Structural Analysis II Lecture 28
Link Structural Analysis II Lecture 29
Link Structural Analysis II Lecture 30
Link Structural Analysis II Lecture 31
Link Structural Analysis II Lecture 32
Link Structural Analysis II Lecture 33
Link Structural Analysis II Lecture 34
Link Structural Analysis II Lecture 35
Link Structural Analysis II Lecture 36
Link Structural Analysis II Lecture 37
Link Structural Analysis II Lecture 38
Link Structural Analysis II Lecture 39
Link Structural Analysis II Lecture 40
Link Geotechnical Earthquake Engineering Lecture 1 - Introduction to Geotechnical Earthquake Engineering - Part I
Link Geotechnical Earthquake Engineering Lecture 2 - Introduction to Geotechnical Earthquake Engineering - Part II
Link Geotechnical Earthquake Engineering Lecture 3 - Basics of Vibration Theory
Link Geotechnical Earthquake Engineering Lecture 4 - Engineering Seismology - Part - I
Link Geotechnical Earthquake Engineering Lecture 5 - Engineering Seismology - Part - II
Link Geotechnical Earthquake Engineering Lecture 6 - Engineering Seismology - Part - III
Link Geotechnical Earthquake Engineering Lecture 7 - Engineering Seismology - Part - IV
Link Geotechnical Earthquake Engineering Lecture 8 - Engineering Seismology - Part - V
Link Geotechnical Earthquake Engineering Lecture 9 - Engineering Seismology - Part - VI
Link Geotechnical Earthquake Engineering Lecture 10 - Strong Ground Motion - Part I
Link Geotechnical Earthquake Engineering Lecture 11 - Strong Ground Motion - Part II
Link Geotechnical Earthquake Engineering Lecture 12 - Strong Ground Motion - Part III
Link Geotechnical Earthquake Engineering Lecture 13 - Strong Ground Motion - Part IV
Link Geotechnical Earthquake Engineering Lecture 14 - Strong Ground Motion - Part V
Link Geotechnical Earthquake Engineering Lecture 15 - Strong Ground Motion - Part VI
Link Geotechnical Earthquake Engineering Lecture 16 - Strong Ground Motion - Part VII
Link Geotechnical Earthquake Engineering Lecture 17 - Wave Propagation - Part I
Link Geotechnical Earthquake Engineering Lecture 18 - Wave Propagation - Part II
Link Geotechnical Earthquake Engineering Lecture 19 - Wave Propagation - Part III
Link Geotechnical Earthquake Engineering Lecture 20 - Wave Propagation - Part IV
Link Geotechnical Earthquake Engineering Lecture 21 - Dynamic Soil Properties - Part I
Link Geotechnical Earthquake Engineering Lecture 22 - Dynamic Soil Properties - Part II
Link Geotechnical Earthquake Engineering Lecture 23 - Seismic Hazard Analysis - Part I
Link Geotechnical Earthquake Engineering Lecture 24 - Seismic Hazard Analysis - Part II
Link Geotechnical Earthquake Engineering Lecture 25 - Seismic Hazard Analysis - Part III
Link Geotechnical Earthquake Engineering Lecture 26 - Seismic Hazard Analysis - Part IV
Link Geotechnical Earthquake Engineering Lecture 27 - Seismic Hazard Analysis - Part V
Link Geotechnical Earthquake Engineering Lecture 28 - Seismic Hazard Analysis - Part VI
Link Geotechnical Earthquake Engineering Lecture 29 - Seismic Hazard Analysis - Part VII
Link Geotechnical Earthquake Engineering Lecture 30 - Seismic Hazard Analysis - Part VIII
Link Geotechnical Earthquake Engineering Lecture 31 - Site Response Analysis - Part I
Link Geotechnical Earthquake Engineering Lecture 32 - Site Response Analysis - Part II
Link Geotechnical Earthquake Engineering Lecture 33 - Site Response Analysis - Part III
Link Geotechnical Earthquake Engineering Lecture 34 - Seismic Analysis and Design of Various Geotechnical Structures - Part I
Link Geotechnical Earthquake Engineering Lecture 35 - Seismic Analysis and Design of Various Geotechnical Structures - Part II
Link Geotechnical Earthquake Engineering Lecture 36 - Seismic Analysis and Design of Various Geotechnical Structures - Part III
Link Geotechnical Earthquake Engineering Lecture 37 - Seismic Analysis and Design of Various Geotechnical Structures - Part IV
Link Geotechnical Earthquake Engineering Lecture 38 - Seismic Analysis and Design of Various Geotechnical Structures - Part V
Link Geotechnical Earthquake Engineering Lecture 39 - Seismic Analysis and Design of Various Geotechnical Structures - Part VI
Link Geotechnical Earthquake Engineering Lecture 40 - Seismic Analysis and Design of Various Geotechnical Structures - Part VII
Link Geotechnical Earthquake Engineering Lecture 41 - Seismic Analysis and Design of Various Geotechnical Structures - Part VIII
Link Geotechnical Earthquake Engineering Lecture 42 - Quiz
Link Geotechnical Earthquake Engineering Lecture 43 - Seismic Analysis and Design of Various Geotechnical Structures - Part IX
Link Geosynthetics Engineering: In Theory and Practice Lecture 1 - Introduction
Link Geosynthetics Engineering: In Theory and Practice Lecture 2 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 3 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 4 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 5 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 6 - An Overview of Geosynthetics - Part I
Link Geosynthetics Engineering: In Theory and Practice Lecture 7 - An Overview of Geosynthetics - Part II
Link Geosynthetics Engineering: In Theory and Practice Lecture 8 - An Overview of Geosynthetics - Part III
Link Geosynthetics Engineering: In Theory and Practice Lecture 9 - An Overview of Gosynthetics
Link Geosynthetics Engineering: In Theory and Practice Lecture 10 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 11 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 12 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 13 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 14 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 15 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 16 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 17 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 18 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 19 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 20 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 21 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 22 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 23 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 24 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 25 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 26 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 27 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 28 - Geosynthetics for Reinfroced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 29 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 30 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 31 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 32 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 33 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 34 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 35 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 36 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 37 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 38 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 39 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 40 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 41 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 42 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 43 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 44 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 45 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 46 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 47 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 48 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 49 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 50 - Geosynthetic for Improvement in Bearing Capacity
Link Geosynthetics Engineering: In Theory and Practice Lecture 51 - Designing with Geotextile Tube
Link Geosynthetics Engineering: In Theory and Practice Lecture 52 - Designing with Geotextile Tube
Link Geosynthetics Engineering: In Theory and Practice Lecture 53 - Design of Geosynthetic for Landfills
Link Geosynthetics Engineering: In Theory and Practice Lecture 54 - Design of Geosynthetic for Landfills
Link Geosynthetics Engineering: In Theory and Practice Lecture 55 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 56 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 57 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 58 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 59 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 60 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 61 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 62 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 63 - Designing With Geofoam
Link NOC:Geotechnical Engineering Laboratory Lecture 1 - Soil Processing
Link NOC:Geotechnical Engineering Laboratory Lecture 2 - Specific Gravity and Field Density
Link NOC:Geotechnical Engineering Laboratory Lecture 3 - Field Density
Link NOC:Geotechnical Engineering Laboratory Lecture 4 - Grain Size Analysis
Link NOC:Geotechnical Engineering Laboratory Lecture 5 - Grain Size Analysis (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 6 - Grain Size Analysis (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 7 - Atterberg Limit
Link NOC:Geotechnical Engineering Laboratory Lecture 8 - Compaction
Link NOC:Geotechnical Engineering Laboratory Lecture 9 - Compaction (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 10 - Compaction (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 11 - Compaction and Permeability
Link NOC:Geotechnical Engineering Laboratory Lecture 12 - Permeability
Link NOC:Geotechnical Engineering Laboratory Lecture 13 - Permeability and Shear Strength
Link NOC:Geotechnical Engineering Laboratory Lecture 14 - Shear Strength
Link NOC:Geotechnical Engineering Laboratory Lecture 15 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 16 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 17 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 18 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 19 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 20 - Consolidation
Link NOC:Geotechnical Engineering Laboratory Lecture 21 - Consolidation (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 22 - Consolidation (Continued...)
Link NOC:Geosynthetics Testing Laboratory Lecture 1 - Introduction
Link NOC:Geosynthetics Testing Laboratory Lecture 2 - Types of Geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 3 - Functions
Link NOC:Geosynthetics Testing Laboratory Lecture 4 - Tests for Physical Properties and tensile strength of geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 5 - Tensile Modulus
Link NOC:Geosynthetics Testing Laboratory Lecture 6 - Drop Cone Test
Link NOC:Geosynthetics Testing Laboratory Lecture 7 - Puncture Resistance Test
Link NOC:Geosynthetics Testing Laboratory Lecture 8 - Puncture Resistance Test and Burst Strength Test
Link NOC:Geosynthetics Testing Laboratory Lecture 9 - Grab Tensile Test
Link NOC:Geosynthetics Testing Laboratory Lecture 10 - Grab Tensile Test and Triaxial Test
Link NOC:Geosynthetics Testing Laboratory Lecture 11 - Triaxial and Pullout Test
Link NOC:Geosynthetics Testing Laboratory Lecture 12 - Pullout Test
Link NOC:Geosynthetics Testing Laboratory Lecture 13 - Sewn Seam Strength, Permittivity and Transmissivity
Link NOC:Geosynthetics Testing Laboratory Lecture 14 - Hydraulic Properties and abrasion Test of geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 15 - Endurance properties of Geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 16 - Density, Water Absorption and Compressive Properties tests of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 17 - Compressive Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 18 - Compressive and Tensile Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 19 - Tensile and Shear Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 20 - Shear and Flexural Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 21 - Flexural Properties and Flammability Test of Geofoam
Link NOC:Environmental Geotechnics Lecture 1 - Overview - 1
Link NOC:Environmental Geotechnics Lecture 2 - Overview - 2
Link NOC:Environmental Geotechnics Lecture 3 - Overview - 3
Link NOC:Environmental Geotechnics Lecture 4 - Civil Engineering
Link NOC:Environmental Geotechnics Lecture 5 - Recent Trends in civil engineering
Link NOC:Environmental Geotechnics Lecture 6 - Recent Trends and Subject organization
Link NOC:Environmental Geotechnics Lecture 7 - Civil Engineering and Soil Mechanics
Link NOC:Environmental Geotechnics Lecture 8 - Soil mechanics
Link NOC:Environmental Geotechnics Lecture 9 - Recent Trends in Soil mechanics
Link NOC:Environmental Geotechnics Lecture 10 - Soil contamination
Link NOC:Environmental Geotechnics Lecture 11 - Soil Improvement and wastes
Link NOC:Environmental Geotechnics Lecture 12 - Contaminant transport in soils
Link NOC:Environmental Geotechnics Lecture 13 - Soil- water- Environment Interaction
Link NOC:Environmental Geotechnics Lecture 14 - Basic concepts of analysis
Link NOC:Environmental Geotechnics Lecture 15 - Particle Energy Field Theory
Link NOC:Environmental Geotechnics Lecture 16 - Waste and types
Link NOC:Environmental Geotechnics Lecture 17 - Municipal and Industrial solid waste
Link NOC:Environmental Geotechnics Lecture 18 - Industrial non-hazardous and Hazardous wastes
Link NOC:Environmental Geotechnics Lecture 19 - Application of Industrial by-products
Link NOC:Environmental Geotechnics Lecture 20 - Introduction to Characterization of waste
Link NOC:Environmental Geotechnics Lecture 21 - Geomaterial characterization - 1
Link NOC:Environmental Geotechnics Lecture 22 - Geomaterial characterization - 2 (Morphological and physical characterization)
Link NOC:Environmental Geotechnics Lecture 23 - Geomaterial characterization - 3 (Chemical characterization)
Link NOC:Environmental Geotechnics Lecture 24 - Geomaterial characterization - 4 (Mercury Intrusive Porosimeter)
Link NOC:Environmental Geotechnics Lecture 25 - Geomaterial characterization - 5 (Specific Surface Area - I)
Link NOC:Environmental Geotechnics Lecture 26 - Geomaterial characterization - 6 (Specific surface area - II)
Link NOC:Environmental Geotechnics Lecture 27 - Geomaterial characterization - 7
Link NOC:Environmental Geotechnics Lecture 28 - Geomaterial characterization - 8 (Pore solution studies - I)
Link NOC:Environmental Geotechnics Lecture 29 - Geomaterial characterization - 9 (Pore solution studies - II)
Link NOC:Environmental Geotechnics Lecture 30 - Geomaterial characterization - 10 (Assessing soil contamination)
Link NOC:Environmental Geotechnics Lecture 31 - Geomaterial characterization - 11
Link NOC:Environmental Geotechnics Lecture 32 - Contaminant transport through porous media - 1
Link NOC:Environmental Geotechnics Lecture 33 - Contaminant transport through porous media - 2
Link NOC:Environmental Geotechnics Lecture 34 - Contaminant transport through porous media - 3
Link NOC:Environmental Geotechnics Lecture 35 - Contaminant transport through porous media - 4
Link NOC:Environmental Geotechnics Lecture 36 - Contaminant transport through porous media - 5
Link NOC:Environmental Geotechnics Lecture 37 - Sorption and Desorption characteristics of geomaterials - 1
Link NOC:Environmental Geotechnics Lecture 38 - Sorption and Desorption characteristics of geomaterials - 2
Link NOC:Environmental Geotechnics Lecture 39 - Sorption and Desorption characteristics of geomaterials - 3
Link NOC:Environmental Geotechnics Lecture 40 - Thermal Characterisation - 1
Link NOC:Environmental Geotechnics Lecture 41 - Thermal characterization - 2
Link NOC:Environmental Geotechnics Lecture 42 - Thermal characterisation - 3
Link NOC:Environmental Geotechnics Lecture 43 - Electrical characterization - 1
Link NOC:Environmental Geotechnics Lecture 44 - Electrical characterization - 2
Link NOC:Environmental Geotechnics Lecture 45 - Electrical characterization - 3
Link NOC:Environmental Geotechnics Lecture 46 - Electrical characterization - 4
Link NOC:Environmental Geotechnics Lecture 47 - Electrical characterization - 5
Link NOC:Environmental Geotechnics Lecture 48 - Swelling, shrinkage and cracking characteristics of soil - 1
Link NOC:Environmental Geotechnics Lecture 49 - Swelling, shrinkage and cracking characteristics of soil - 2
Link NOC:Environmental Geotechnics Lecture 50 - Swelling, shrinkage and cracking characteristics of soil - 3
Link NOC:Environmental Geotechnics Lecture 51 - Swelling, shrinkage and cracking characteristics of soil - 4
Link NOC:Environmental Geotechnics Lecture 52 - Swelling, shrinkage and cracking characteristics of soil - 5
Link NOC:Environmental Geotechnics Lecture 53 - Swelling, shrinkage and cracking characteristics of soil - 6
Link NOC:Environmental Geomechanics Lecture 1 - Introduction - I
Link NOC:Environmental Geomechanics Lecture 2 - Introduction - II
Link NOC:Environmental Geomechanics Lecture 3 - Overview
Link NOC:Environmental Geomechanics Lecture 4 - Civil Engineering and Soil Mechanics
Link NOC:Environmental Geomechanics Lecture 5 - Soil mechanics
Link NOC:Environmental Geomechanics Lecture 6 - Environmental Geomechanics
Link NOC:Environmental Geomechanics Lecture 7 - Scope of Environmental Geomechanics - I
Link NOC:Environmental Geomechanics Lecture 8 - Scope of Environmental Geomechanics - II
Link NOC:Environmental Geomechanics Lecture 9 - Scope of Environmental Geomechanics - III
Link NOC:Environmental Geomechanics Lecture 10 - Recent trends - I
Link NOC:Environmental Geomechanics Lecture 11 - Recent trends - II
Link NOC:Environmental Geomechanics Lecture 12 - Energy Geotechnics
Link NOC:Environmental Geomechanics Lecture 13 - Soil: A living entity
Link NOC:Environmental Geomechanics Lecture 14 - Soil- water- environment interaction - I
Link NOC:Environmental Geomechanics Lecture 15 - Soil- water- environment interaction - II
Link NOC:Environmental Geomechanics Lecture 16 - Soil- water- environment interaction - III
Link NOC:Environmental Geomechanics Lecture 17 - Particle energy field theory - I
Link NOC:Environmental Geomechanics Lecture 18 - Particle energy field theory - II
Link NOC:Environmental Geomechanics Lecture 19 - Particle energy field theory - III
Link NOC:Environmental Geomechanics Lecture 20 - Waste: A manmade resource - I
Link NOC:Environmental Geomechanics Lecture 21 - Waste: A manmade resource - II
Link NOC:Environmental Geomechanics Lecture 22 - Waste: A manmade resource - III
Link NOC:Environmental Geomechanics Lecture 23 - Application of industrial by-products - I
Link NOC:Environmental Geomechanics Lecture 24 - Application of industrial by-products - II
Link NOC:Environmental Geomechanics Lecture 25 - Geomaterial characterization - I (Mineralogical characterization)
Link NOC:Environmental Geomechanics Lecture 26 - Geomaterial characterization - II (Mineralogical characterization)
Link NOC:Environmental Geomechanics Lecture 27 - Geomaterial characterization - III (Morphological characterization)
Link NOC:Environmental Geomechanics Lecture 28 - Geomaterial characterization - IV (Morphological characterization)
Link NOC:Environmental Geomechanics Lecture 29 - Geomaterial characterization - V (Specific surface area)
Link NOC:Environmental Geomechanics Lecture 30 - Geomaterial characterization - VI (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 31 - Geomaterial characterization - VII (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 32 - Geomaterial characterization - VIII (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 33 - Geomaterial characterization - IX (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 34 - Geomaterial characterization - X (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 35 - Geomaterial characterization - XI (Chemical characterization)
Link NOC:Environmental Geomechanics Lecture 36 - Geomaterial characterization - XII (Corrosion potential of soils)
Link NOC:Environmental Geomechanics Lecture 37 - Soil characteristics and environmental variables
Link NOC:Environmental Geomechanics Lecture 38 - Corrosion potential of soils
Link NOC:Environmental Geomechanics Lecture 39 - Contaminant transport through porous media - I
Link NOC:Environmental Geomechanics Lecture 40 - Contaminant transport through porous media - II
Link NOC:Environmental Geomechanics Lecture 41 - Contaminant transport through porous media - III
Link NOC:Environmental Geomechanics Lecture 42 - Sorption – desorption characteristics - I
Link NOC:Environmental Geomechanics Lecture 43 - Sorption – desorption characteristics - II
Link NOC:Environmental Geomechanics Lecture 44 - Sorption – desorption characteristics - III
Link NOC:Environmental Geomechanics Lecture 45 - Thermal characterization - I
Link NOC:Environmental Geomechanics Lecture 46 - Thermal characterization - II
Link NOC:Environmental Geomechanics Lecture 47 - Thermal characterization - III
Link NOC:Environmental Geomechanics Lecture 48 - Cracking characteristics of fine-grained soils - I
Link NOC:Environmental Geomechanics Lecture 49 - Cracking characteristics of fine-grained soils - II
Link NOC:Environmental Geomechanics Lecture 50 - Cracking characteristics of fine-grained soils - III
Link NOC:Environmental Geomechanics Lecture 51 - Electrical characterization - I
Link NOC:Environmental Geomechanics Lecture 52 - Electrical characterization - II
Link NOC:Environmental Geomechanics Lecture 53 - Electrical characterization - III
Link NOC:Environmental Geomechanics Lecture 54 - Magnetic characterization
Link NOC:Environmental Geomechanics Lecture 55 - Pore-structure characterization - I
Link NOC:Environmental Geomechanics Lecture 56 - Pore-structure characterization - II
Link NOC:Geotechnical Engineering - 1 Lecture 1 - Introduction
Link NOC:Geotechnical Engineering - 1 Lecture 2 - Origin and Definition of Soils
Link NOC:Geotechnical Engineering - 1 Lecture 3 - Classification of Soils - I
Link NOC:Geotechnical Engineering - 1 Lecture 4 - Classification of Soils - II
Link NOC:Geotechnical Engineering - 1 Lecture 5 - Classification of Soils - III and Challenging Situations
Link NOC:Geotechnical Engineering - 1 Lecture 6 - Soil constituents - I
Link NOC:Geotechnical Engineering - 1 Lecture 7 - Soil constituents - II
Link NOC:Geotechnical Engineering - 1 Lecture 8 - Particulate Nature of the Soils
Link NOC:Geotechnical Engineering - 1 Lecture 9 - Soil Aggregate and Phase Relations
Link NOC:Geotechnical Engineering - 1 Lecture 10 - Classification of Soils and Sieve Analysis
Link NOC:Geotechnical Engineering - 1 Lecture 11 - Particle Size Analysis of Finegrained Soils
Link NOC:Geotechnical Engineering - 1 Lecture 12 - Soil-water Interaction - I
Link NOC:Geotechnical Engineering - 1 Lecture 13 - Soil-water Interaction - II
Link NOC:Geotechnical Engineering - 1 Lecture 14 - Compaction Characteristics of Soil - I
Link NOC:Geotechnical Engineering - 1 Lecture 15 - Compaction Characteristics of Soil - II
Link NOC:Geotechnical Engineering - 1 Lecture 16 - Permeability of Soil and Ground Water Flow - I
Link NOC:Geotechnical Engineering - 1 Lecture 17 - Permeability of Soil and Ground Water Flow - II
Link NOC:Geotechnical Engineering - 1 Lecture 18 - Coefficient of Permeability
Link NOC:Geotechnical Engineering - 1 Lecture 19 - Seepage Theory
Link NOC:Geotechnical Engineering - 1 Lecture 20 - Applications of Seepage Theory
Link NOC:Geotechnical Engineering - 1 Lecture 21 - Flow Net in the Earthen Dam - I
Link NOC:Geotechnical Engineering - 1 Lecture 22 - Flow Net in the Earthen Dam - II
Link NOC:Geotechnical Engineering - 1 Lecture 23 - Stresses in the Soil Mass due to External Loadings - I
Link NOC:Geotechnical Engineering - 1 Lecture 24 - Stresses in the Soil Mass due to External Loadings - II
Link NOC:Geotechnical Engineering - 1 Lecture 25 - Compression Characteristics of Soils - I
Link NOC:Geotechnical Engineering - 1 Lecture 26 - Compression Characteristics of Soils - II
Link NOC:Geotechnical Engineering - 1 Lecture 27 - Consolidation of soils
Link NOC:Geotechnical Engineering - 1 Lecture 28 - Coefficient of consolidation
Link NOC:Remote Sensing: Principles and Applications Lecture 1 - Introduction to RS and EMR
Link NOC:Remote Sensing: Principles and Applications Lecture 2 - Introduction to EMR
Link NOC:Remote Sensing: Principles and Applications Lecture 3 - Basic Laws of RS
Link NOC:Remote Sensing: Principles and Applications Lecture 4 - Properties of EMR - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 5 - Properties of EMR - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 6 - Interaction of EMR with atmosphere
Link NOC:Remote Sensing: Principles and Applications Lecture 7 - Radiometry - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 8 - Radiometry - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 9 - Radiometry - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 10 - Reflectance, albedo and related quantities
Link NOC:Remote Sensing: Principles and Applications Lecture 11 - Interaction of EMR with terrain features - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 12 - Interaction of EMR with terrain features - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 13 - Radiation reaching sensor - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 14 - Radiation reaching sensor - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 15 - RS data: From Radiance to reflectance - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 16 - RS data: From Radiance to reflectance - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 17 - RS data: From Radiance to reflectance - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 18 - RS image acquisition and RS systems - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 19 - RS image acquisition and RS systems - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 20 - RS image acquisition and RS systems - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 21 - RS image acquisition and RS systems - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 22 - RS image acquisition and RS systems - Part 5
Link NOC:Remote Sensing: Principles and Applications Lecture 23 - RS image acquisition and RS systems - Part 6
Link NOC:Remote Sensing: Principles and Applications Lecture 24 - RS image acquisition and RS systems - Part 7
Link NOC:Remote Sensing: Principles and Applications Lecture 25 - RS image acquisition and RS systems - Part 8
Link NOC:Remote Sensing: Principles and Applications Lecture 26 - RS image acquisition and RS systems - Part 9
Link NOC:Remote Sensing: Principles and Applications Lecture 27 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 28 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 29 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 30 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 31 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 5
Link NOC:Remote Sensing: Principles and Applications Lecture 32 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 6
Link NOC:Remote Sensing: Principles and Applications Lecture 33 - Spectral Properties of few common earth features in the Visible, NIR and SWIR bands - Part 7
Link NOC:Remote Sensing: Principles and Applications Lecture 34 - Spectral Indices
Link NOC:Remote Sensing: Principles and Applications Lecture 35 - Thermal Infrared Remote Sensing - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 36 - Thermal Infrared Remote Sensing - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 37 - Thermal Infrared Remote Sensing - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 38 - Thermal Infrared Remote Sensing - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 39 - Thermal Infrared Remote Sensing - Part 5
Link NOC:Remote Sensing: Principles and Applications Lecture 40 - Passive Microwave Remote Sensing - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 41 - Passive Microwave Remote Sensing - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 42 - Passive Microwave Remote Sensing - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 43 - Passive Microwave Remote Sensing - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 44 - Active microwave Remote Sensing - Radar - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 45 - Active microwave Remote Sensing - Radar - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 46 - Active microwave Remote Sensing - Radar - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 47 - Active microwave Remote Sensing - Radar - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 48 - Active microwave Remote Sensing - Radar - Part 5
Link NOC:Remote Sensing: Principles and Applications Lecture 49 - Active microwave Remote Sensing - Radar - Part 6
Link NOC:Remote Sensing: Principles and Applications Lecture 50 - Platforms for remote sensing observations - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 51 - Platforms for remote sensing observations - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 52 - Platforms for remote sensing observations - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 53 - Platforms for remote sensing observations - Part 4
Link NOC:Remote Sensing: Principles and Applications Lecture 54 - Platforms for remote sensing observations - Part 5
Link NOC:Remote Sensing: Principles and Applications Lecture 55 - Platforms for remote sensing observations - Part 6
Link NOC:Remote Sensing: Principles and Applications Lecture 56 - LIDAR - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 57 - LIDAR - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 58 - LIDAR - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 59 - RS data, data portals and processing tools - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 60 - RS data, data portals and processing tools - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 61 - RS data, data portals and processing tools - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 62 - Land use, land cover monitoring and change detection - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 63 - Land use, land cover monitoring and change detection - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 64 - Application of RS in water resources management - Part 1
Link NOC:Remote Sensing: Principles and Applications Lecture 65 - Application of RS in water resources management - Part 2
Link NOC:Remote Sensing: Principles and Applications Lecture 66 - Application of RS in water resources management - Part 3
Link NOC:Remote Sensing: Principles and Applications Lecture 67 - Application of RS in water resources management - Part 4
Link NOC:Dynamics of Structures Lecture 1 - Introduction to Structural Dynamics
Link NOC:Dynamics of Structures Lecture 2 - Idealization of Structures
Link NOC:Dynamics of Structures Lecture 3 - Components of Dynamic System
Link NOC:Dynamics of Structures Lecture 4 - Equation of Motion
Link NOC:Dynamics of Structures Lecture 5 - Free Vibration
Link NOC:Dynamics of Structures Lecture 6 - Damped Free Vibration - Part 1
Link NOC:Dynamics of Structures Lecture 7 - Damped Free Vibration - Part 2
Link NOC:Dynamics of Structures Lecture 8 - Undamped Harmonic Excitations
Link NOC:Dynamics of Structures Lecture 9 - Damped Harmonic Excitations
Link NOC:Dynamics of Structures Lecture 10 - Frequency response curves
Link NOC:Dynamics of Structures Lecture 11 - Transmissibility
Link NOC:Dynamics of Structures Lecture 12 - Energy in Forced Vibrations
Link NOC:Dynamics of Structures Lecture 13 - Unit impulse Functions
Link NOC:Dynamics of Structures Lecture 14 - Step and Ramp Forces
Link NOC:Dynamics of Structures Lecture 15 - Pulse Excitations
Link NOC:Dynamics of Structures Lecture 16 - Numerical Response Methods
Link NOC:Dynamics of Structures Lecture 17 - Seismic Response Spectra
Link NOC:Dynamics of Structures Lecture 18 - Continuous systems
Link NOC:Dynamics of Structures Lecture 19 - Lumped mass systems
Link NOC:Dynamics of Structures Lecture 20 - Equation of motion
Link NOC:Dynamics of Structures Lecture 21 - Equation of motion - examples
Link NOC:Dynamics of Structures Lecture 22 - Mode shapes and frequencies
Link NOC:Dynamics of Structures Lecture 23 - Free vibration - Undamped and Damped
Link NOC:Dynamics of Structures Lecture 24 - Damping in MDOF Systems
Link NOC:Dynamics of Structures Lecture 25 - Forced response of MDOF systems
Link NOC:Dynamics of Structures Lecture 26 - Modal superposition Analysis
Link NOC:Dynamics of Structures Lecture 27 - Response Spectrum Analysis
Link NOC:Dynamics of Structures Lecture 28 - Concept of Seismic Isolation
Link NOC:Dynamics of Structures Lecture 29 - Dynamics of Base-isolation Systems
Link NOC:Microwave Remote Sensing in Hydrology Lecture 1 - Syllabus
Link NOC:Microwave Remote Sensing in Hydrology Lecture 2 - History Of Microwave Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 3 - Overview Of Active and Passive Microwave Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 4 - Fundamentals Laws Of Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 5 - Tutorial 1: Python Programming From Beginner Perspective
Link NOC:Microwave Remote Sensing in Hydrology Lecture 6 - Scattering Of Microwaves
Link NOC:Microwave Remote Sensing in Hydrology Lecture 7 - Synthetic Aperture Radars - Basics
Link NOC:Microwave Remote Sensing in Hydrology Lecture 8 - Sar Image Processing - Fundamental Terminologies
Link NOC:Microwave Remote Sensing in Hydrology Lecture 9 - Working With Sar Imagery
Link NOC:Microwave Remote Sensing in Hydrology Lecture 10 - Understanding Radar Equation
Link NOC:Microwave Remote Sensing in Hydrology Lecture 11 - Tutorial 2 : Exploring Alos Palsar Data In Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 12 - Understanding Radar Imagery
Link NOC:Microwave Remote Sensing in Hydrology Lecture 13 - Tutorial 3: Introduction To SNAP
Link NOC:Microwave Remote Sensing in Hydrology Lecture 14 - Doppler Shift
Link NOC:Microwave Remote Sensing in Hydrology Lecture 15 - Speckle
Link NOC:Microwave Remote Sensing in Hydrology Lecture 16 - Speckle - How To Handle
Link NOC:Microwave Remote Sensing in Hydrology Lecture 17 - Tutorial 4 Part 1: Plotting In 1 D Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 18 - Tutorial 4 Part 2: Plotting In 2 D Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 19 - Tutorial 4 Part 3: Statistics Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 20 - Tutorial 4 Part 4: Hypothesis Tesing Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 21 - Sar Image Pre Processing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 22 - Sar Image Texture
Link NOC:Microwave Remote Sensing in Hydrology Lecture 23 - Texture For Image Classification
Link NOC:Microwave Remote Sensing in Hydrology Lecture 24 - Polarization
Link NOC:Microwave Remote Sensing in Hydrology Lecture 25 - Tutorial 5 Part 1: Speckle Filtering Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 26 - Tutorial 5 Part 2: Speckle Filtering Using Python Using Gaussian Filter
Link NOC:Microwave Remote Sensing in Hydrology Lecture 27 - Numerical On Radar Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 28 - Numerical On Radar Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 29 - Image Classification - Basics
Link NOC:Microwave Remote Sensing in Hydrology Lecture 30 - Supervised Classification
Link NOC:Microwave Remote Sensing in Hydrology Lecture 31 - Maximum Likelihood Classification
Link NOC:Microwave Remote Sensing in Hydrology Lecture 32 - Tutorial 6 Part 1: Sar Image Pre-processing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 33 - Tutorial 6 Part 2: Maximum Likelihood Classification In Snap
Link NOC:Microwave Remote Sensing in Hydrology Lecture 34 - Unsupervised Classification And Accuracy Assessment
Link NOC:Microwave Remote Sensing in Hydrology Lecture 35 - Fuzzy Classification
Link NOC:Microwave Remote Sensing in Hydrology Lecture 36 - Tutorial 7 Part 1: Working With Grace Data In Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 37 - Tutorial 7 Part 2: Altimetry Data In Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 38 - Tutorial 7 Part 3: Swot Mission For Altimetry
Link NOC:Microwave Remote Sensing in Hydrology Lecture 39 - Radars In Hydrology
Link NOC:Microwave Remote Sensing in Hydrology Lecture 40 - Applications Of Radar Remote Sensing In Hydrology
Link NOC:Microwave Remote Sensing in Hydrology Lecture 41 - Doppler Weather Radar
Link NOC:Microwave Remote Sensing in Hydrology Lecture 42 - Tutorial 8 Part 1: Doppler Weather Radar Data Visualization And Precipitation Estimation
Link NOC:Microwave Remote Sensing in Hydrology Lecture 43 - Tutorial 8 Part 2: Doppler Weather Radar Data Visualization And Precipitation Estimation
Link NOC:Microwave Remote Sensing in Hydrology Lecture 44 - Radar Altimetry
Link NOC:Microwave Remote Sensing in Hydrology Lecture 45 - Measuring Soil Moisture And Terrestrial Water Storage Using Radar Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 46 - Tutorial 9: Handling Passive Microwave Obsevations
Link NOC:Microwave Remote Sensing in Hydrology Lecture 47 - Fundamentals Of Passive Microwave Remote Sensing - Part 1
Link NOC:Microwave Remote Sensing in Hydrology Lecture 48 - Fundamentals Of Passive Microwave Remote Sensing - Part 2
Link NOC:Microwave Remote Sensing in Hydrology Lecture 49 - Applications Of Passive Microwave Remote Sensing In Hydrology
Link NOC:Microwave Remote Sensing in Hydrology Lecture 50 - Passive Microwave Radiometers And Their Applications
Link NOC:Microwave Remote Sensing in Hydrology Lecture 51 - Tutorial 10: Processing Satellite Precipitation Data Using Python
Link NOC:Microwave Remote Sensing in Hydrology Lecture 52 - Introduction To The Basics Of Sar Intereferometry
Link NOC:Microwave Remote Sensing in Hydrology Lecture 53 - Sar Interferometry (Insar) And Applications
Link NOC:Microwave Remote Sensing in Hydrology Lecture 54 - Introduction To Other Modes Of Sar Interferometry And Applications - DInSAR, PSInSAR and DEM's
Link NOC:Microwave Remote Sensing in Hydrology Lecture 55 - Tutorial 11: Sar Interferometry Processing Using Snaphu
Link NOC:Microwave Remote Sensing in Hydrology Lecture 56 - Tutorial 12 Part 1: Hydrologic Modelling Using Microwave Remote Sensing
Link NOC:Microwave Remote Sensing in Hydrology Lecture 57 - Tutorial 12 Part 2: Introduction To Swat+ Hydrological Model
Link NOC:Microwave Remote Sensing in Hydrology Lecture 58 - Tutorial 12 Part 3: Introductory Tutorial On Vic Hydrological Model
Link NOC:Groundwater Hydrology and Management Lecture 1 - Introduction to Groundwater - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 2 - Introduction to Groundwater - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 3 - Introduction to Groundwater - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 4 - Introduction to Groundwater - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 5 - Introduction to Groundwater - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 6 - International importance of groundwater and India - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 7 - International importance of groundwater and India - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 8 - International importance of groundwater and India - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 9 - International importance of groundwater and India - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 10 - International importance of groundwater and India - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 11 - Physics and hydrology of Groundwater - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 12 - Physics and hydrology of Groundwater - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 13 - Physics and hydrology of Groundwater - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 14 - Physics and hydrology of Groundwater - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 15 - Physics and hydrology of Groundwater - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 16 - Groundwater governing equations 1 - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 17 - Groundwater governing equations 1 - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 18 - Groundwater governing equations 1 - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 19 - Groundwater governing equations 1 - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 20 - Groundwater governing equations 1 - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 21 - Groundwater governing equations 2 - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 22 - Groundwater governing equations 2 - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 23 - Groundwater governing equations 2 - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 24 - Groundwater governing equations 2 - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 25 - Groundwater governing equations 2 - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 26 - Groundwater recharge and discharge - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 27 - Groundwater recharge and discharge - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 28 - Groundwater recharge and discharge - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 29 - Groundwater recharge and discharge - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 30 - Groundwater recharge and discharge - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 31 - Constructing aquifers using groundwater data - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 32 - Constructing aquifers using groundwater data - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 33 - Constructing aquifers using groundwater data - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 34 - Constructing aquifers using groundwater data - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 35 - Constructing aquifers using groundwater data - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 36 - Conceptual model for groundwater - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 37 - Conceptual model for groundwater - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 38 - Conceptual model for groundwater - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 39 - Conceptual model for groundwater - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 40 - Conceptual model for groundwater - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 41 - Groundwater data in India - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 42 - Groundwater data in India - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 43 - Groundwater data in India - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 44 - Groundwater data in India - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 45 - Groundwater data in India - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 46 - Application of Groundwater data in India - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 47 - Application of Groundwater data in India - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 48 - Application of Groundwater data in India - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 49 - Application of Groundwater data in India - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 50 - Application of Groundwater data in India - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 51 - Introduction to Groundwater modeling - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 52 - Introduction to Groundwater modeling - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 53 - Introduction to Groundwater modeling - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 54 - Introduction to Groundwater modeling - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 55 - Introduction to Groundwater modeling - Part 5
Link NOC:Groundwater Hydrology and Management Lecture 56 - Case studies of Groundwater in India - Part 1
Link NOC:Groundwater Hydrology and Management Lecture 57 - Case studies of Groundwater in India - Part 2
Link NOC:Groundwater Hydrology and Management Lecture 58 - Case studies of Groundwater in India - Part 3
Link NOC:Groundwater Hydrology and Management Lecture 59 - Case studies of Groundwater in India - Part 4
Link NOC:Groundwater Hydrology and Management Lecture 60 - Case studies of Groundwater in India - Part 5
Link NOC:Rural Water Resources Management Lecture 1 - Importance of water resource management and Hydrological Cycle and representations - Part 1
Link NOC:Rural Water Resources Management Lecture 2 - Importance of water resource management and Hydrological Cycle and representations - Part 2
Link NOC:Rural Water Resources Management Lecture 3 - Importance of water resource management and Hydrological Cycle and representations - Part 3
Link NOC:Rural Water Resources Management Lecture 4 - Importance of water resource management and Hydrological Cycle and representations - Part 4
Link NOC:Rural Water Resources Management Lecture 5 - Importance of water resource management and Hydrological Cycle and representations - Part 5
Link NOC:Rural Water Resources Management Lecture 6 - Key Hydrological Parameters 1 - Part 1
Link NOC:Rural Water Resources Management Lecture 7 - Key Hydrological Parameters 1 - Part 2
Link NOC:Rural Water Resources Management Lecture 8 - Key Hydrological Parameters 1 - Part 3
Link NOC:Rural Water Resources Management Lecture 9 - Key Hydrological Parameters 1 - Part 4
Link NOC:Rural Water Resources Management Lecture 10 - Key Hydrological Parameters 1 - Part 5
Link NOC:Rural Water Resources Management Lecture 11 - Key Hydrological Parameters 2 - Part 1
Link NOC:Rural Water Resources Management Lecture 12 - Key Hydrological Parameters 2 - Part 2
Link NOC:Rural Water Resources Management Lecture 13 - Key Hydrological Parameters 2 - Part 3
Link NOC:Rural Water Resources Management Lecture 14 - Key Hydrological Parameters 2 - Part 4
Link NOC:Rural Water Resources Management Lecture 15 - Key Hydrological Parameters 2 - Part 5
Link NOC:Rural Water Resources Management Lecture 16 - Introduction to Groundwater hydrology - Part 1
Link NOC:Rural Water Resources Management Lecture 17 - Introduction to Groundwater hydrology - Part 2
Link NOC:Rural Water Resources Management Lecture 18 - Introduction to Groundwater hydrology - Part 3
Link NOC:Rural Water Resources Management Lecture 19 - Introduction to Groundwater hydrology - Part 4
Link NOC:Rural Water Resources Management Lecture 20 - Introduction to Groundwater hydrology - Part 5
Link NOC:Rural Water Resources Management Lecture 21 - Groundwater components - Part 1
Link NOC:Rural Water Resources Management Lecture 22 - Groundwater components - Part 2
Link NOC:Rural Water Resources Management Lecture 23 - Groundwater components - Part 3
Link NOC:Rural Water Resources Management Lecture 24 - Groundwater components - Part 4
Link NOC:Rural Water Resources Management Lecture 25 - Groundwater components - Part 5
Link NOC:Rural Water Resources Management Lecture 26 - Surface water hydrology - Part 1
Link NOC:Rural Water Resources Management Lecture 27 - Surface water hydrology - Part 2
Link NOC:Rural Water Resources Management Lecture 28 - Surface water hydrology - Part 3
Link NOC:Rural Water Resources Management Lecture 29 - Surface water hydrology - Part 4
Link NOC:Rural Water Resources Management Lecture 30 - Surface water hydrology - Part 5
Link NOC:Rural Water Resources Management Lecture 31 - Water Mass Balance Equation - Part 1
Link NOC:Rural Water Resources Management Lecture 32 - Water Mass Balance Equation - Part 2
Link NOC:Rural Water Resources Management Lecture 33 - Water Mass Balance Equation - Part 3
Link NOC:Rural Water Resources Management Lecture 34 - Water Mass Balance Equation - Part 4
Link NOC:Rural Water Resources Management Lecture 35 - Water Mass Balance Equation - Part 5
Link NOC:Rural Water Resources Management Lecture 36 - Rural water management issues, data challenges and observation records - Part 1
Link NOC:Rural Water Resources Management Lecture 37 - Rural water management issues, data challenges and observation records - Part 2
Link NOC:Rural Water Resources Management Lecture 38 - Rural water management issues, data challenges and observation records - Part 3
Link NOC:Rural Water Resources Management Lecture 39 - Rural water management issues, data challenges and observation records - Part 4
Link NOC:Rural Water Resources Management Lecture 40 - Rural water management issues, data challenges and observation records - Part 5
Link NOC:Rural Water Resources Management Lecture 41 - Rural water resource management infrastructure (engineered) - Part 1
Link NOC:Rural Water Resources Management Lecture 42 - Rural water resource management infrastructure (engineered) - Part 2
Link NOC:Rural Water Resources Management Lecture 43 - Rural water resource management infrastructure (engineered) - Part 3
Link NOC:Rural Water Resources Management Lecture 44 - Rural water resource management infrastructure (engineered) - Part 4
Link NOC:Rural Water Resources Management Lecture 45 - Rural water resource management infrastructure (engineered) - Part 5
Link NOC:Rural Water Resources Management Lecture 46 - Rural water resource management infrastructure (nature based) - Part 1
Link NOC:Rural Water Resources Management Lecture 47 - Rural water resource management infrastructure (nature based) - Part 2
Link NOC:Rural Water Resources Management Lecture 48 - Rural water resource management infrastructure (nature based) - Part 3
Link NOC:Rural Water Resources Management Lecture 49 - Rural water resource management infrastructure (nature based) - Part 4
Link NOC:Rural Water Resources Management Lecture 50 - Rural water resource management infrastructure (nature based) - Part 5
Link NOC:Rural Water Resources Management Lecture 51 - Solving case studies in rural water resource management - Part 1
Link NOC:Rural Water Resources Management Lecture 52 - Solving case studies in rural water resource management - Part 2
Link NOC:Rural Water Resources Management Lecture 53 - Solving case studies in rural water resource management - Part 3
Link NOC:Rural Water Resources Management Lecture 54 - Solving case studies in rural water resource management - Part 4
Link NOC:Rural Water Resources Management Lecture 55 - Solving case studies in rural water resource management - Part 5
Link NOC:Rural Water Resources Management Lecture 56 - Rural hydrological databases for India - Part 1
Link NOC:Rural Water Resources Management Lecture 57 - Rural hydrological databases for India - Part 2
Link NOC:Rural Water Resources Management Lecture 58 - Rural hydrological databases for India - Part 3
Link NOC:Rural Water Resources Management Lecture 59 - Rural hydrological databases for India - Part 4
Link NOC:Rural Water Resources Management Lecture 60 - Rural hydrological databases for India - Part 5
Link NOC:Geotechnical Engineering-II Lecture 1 - Introduction
Link NOC:Geotechnical Engineering-II Lecture 2 - Shear Strength of Soils - I
Link NOC:Geotechnical Engineering-II Lecture 3 - Shear Strength of Soils - II
Link NOC:Geotechnical Engineering-II Lecture 4 - Shear Strength of Soils - III
Link NOC:Geotechnical Engineering-II Lecture 5 - Shear Strength of Soils - IV
Link NOC:Geotechnical Engineering-II Lecture 6 - Testing for shear strength parameters: Introduction
Link NOC:Geotechnical Engineering-II Lecture 7 - Direct shear box test
Link NOC:Geotechnical Engineering-II Lecture 8 - Direct Shear Interpretation of Test Results - I
Link NOC:Geotechnical Engineering-II Lecture 9 - Direct Shear Interpretation of Test Results - II
Link NOC:Geotechnical Engineering-II Lecture 10 - Kf line
Link NOC:Geotechnical Engineering-II Lecture 11 - Selection of Parameter (Shear Strength,SS) - I
Link NOC:Geotechnical Engineering-II Lecture 12 - Selection of Parameter (Shear Strength,SS) - II
Link NOC:Geotechnical Engineering-II Lecture 13 - Shear Strength of Cohesive Soils - I
Link NOC:Geotechnical Engineering-II Lecture 14 - Shear Strength of Cohesive Soils - II
Link NOC:Geotechnical Engineering-II Lecture 15 - Triaxial Test - I
Link NOC:Geotechnical Engineering-II Lecture 16 - Triaxial Test - II
Link NOC:Geotechnical Engineering-II Lecture 17 - Triaxial Test - III
Link NOC:Geotechnical Engineering-II Lecture 18 - Interpretation of Triaxial test Results - I
Link NOC:Geotechnical Engineering-II Lecture 19 - Interpretation of Triaxial test Results - II
Link NOC:Geotechnical Engineering-II Lecture 20 - Interpretation of Triaxial test Results - III
Link NOC:Geotechnical Engineering-II Lecture 21 - Pore Pressure Parameters - I
Link NOC:Geotechnical Engineering-II Lecture 22 - Pore Pressure Parameters - II
Link NOC:Geotechnical Engineering-II Lecture 23 - Stress Paths - I
Link NOC:Geotechnical Engineering-II Lecture 24 - Stress Paths - II
Link NOC:Geotechnical Engineering-II Lecture 25 - Plastic Equilibrium in Soils
Link NOC:Geotechnical Engineering-II Lecture 26 - Mechanisms of Development of Plastic Equilibrium in Soils - I
Link NOC:Geotechnical Engineering-II Lecture 27 - Mechanisms of Development of Plastic Equilibrium in Soils - II
Link NOC:Geotechnical Engineering-II Lecture 28 - Earth Pressure Analysis (Trial Wedge) - I
Link NOC:Geotechnical Engineering-II Lecture 29 - Earth Pressure Analysis (Trial Wedge) - II
Link NOC:Geotechnical Engineering-II Lecture 30 - Earth Pressure Analysis (Trial Wedge) - III
Link NOC:Geotechnical Engineering-II Lecture 31 - Analysis of Completely Submerged Retaining wall
Link NOC:Geotechnical Engineering-II Lecture 32 - Gravity Walls Supporting Cohesive Soil Mass (Backfill)
Link NOC:Geotechnical Engineering-II Lecture 33 - Sloping Backfill
Link NOC:Geotechnical Engineering-II Lecture 34 - Earth Pressure Analysis - I
Link NOC:Geotechnical Engineering-II Lecture 35 - Earth Pressure Analysis - II
Link NOC:Geotechnical Engineering-II Lecture 36 - Sheet Pile Wall Introduction - I
Link NOC:Geotechnical Engineering-II Lecture 37 - Sheet Pile Wall Introduction - II
Link NOC:Geotechnical Engineering-II Lecture 38 - Sheet pile wall Introduction - III
Link NOC:Geotechnical Engineering-II Lecture 39 - Analysis of sheet piles - I
Link NOC:Geotechnical Engineering-II Lecture 40 - Analysis of sheet piles - II
Link NOC:Geotechnical Engineering-II Lecture 41 - Anchored Bulkheads
Link NOC:Geotechnical Engineering-II Lecture 42 - Cantilever Sheet Piles
Link NOC:Geotechnical Engineering-II Lecture 43 - Lateral Earth Pressure Braced Sheet Pile Walls
Link NOC:Geotechnical Engineering-II Lecture 44 - Slope Stability - I
Link NOC:Geotechnical Engineering-II Lecture 45 - Slope Stability - II
Link NOC:Geotechnical Engineering-II Lecture 46 - Slope Instability - I
Link NOC:Geotechnical Engineering-II Lecture 47 - Slope Instability - II
Link NOC:Geotechnical Engineering-II Lecture 48 - Slope Instability - III
Link NOC:Geotechnical Engineering-II Lecture 49 - Analysis of Finite Slopes - I Planar Failure Surface
Link NOC:Geotechnical Engineering-II Lecture 50 - Analysis of Finite Slopes - II Circular Failure Surface
Link NOC:Geotechnical Engineering-II Lecture 51 - Finite Slopes Friction Circle Method
Link NOC:Geotechnical Engineering-II Lecture 52 - Slip Circle Method
Link NOC:Remote Sensing and GIS for Rural Development Lecture 1 - Introduction to course - Rural development (RD)
Link NOC:Remote Sensing and GIS for Rural Development Lecture 2 - Water security (SF) and Water security (GW) and issues
Link NOC:Remote Sensing and GIS for Rural Development Lecture 3 - Food security and issues
Link NOC:Remote Sensing and GIS for Rural Development Lecture 4 - Agriculture and rural infrastructure issues
Link NOC:Remote Sensing and GIS for Rural Development Lecture 5 - Rural Development
Link NOC:Remote Sensing and GIS for Rural Development Lecture 6 - Data and mapping issues for Rural regions
Link NOC:Remote Sensing and GIS for Rural Development Lecture 7 - Introduction to Remote Sensing and need
Link NOC:Remote Sensing and GIS for Rural Development Lecture 8 - Remote Sensing for Water and Food Security
Link NOC:Remote Sensing and GIS for Rural Development Lecture 9 - Remote Sensing for Rural infrastructures
Link NOC:Remote Sensing and GIS for Rural Development Lecture 10 - Remote Sensing for Rural Development
Link NOC:Remote Sensing and GIS for Rural Development Lecture 11 - Intro to Remote Sensing Data for Rural Development
Link NOC:Remote Sensing and GIS for Rural Development Lecture 12 - Intro to Remote Sensing Data for Rural Development : Water
Link NOC:Remote Sensing and GIS for Rural Development Lecture 13 - Intro to Remote Sessing Data for Rural Development : Soil and Climate
Link NOC:Remote Sensing and GIS for Rural Development Lecture 14 - Intro to Remote Sensing Data for Rural Development : NASA datasets for water
Link NOC:Remote Sensing and GIS for Rural Development Lecture 15 - Intro to Remote Sensing Data for Rural Development
Link NOC:Remote Sensing and GIS for Rural Development Lecture 16 - Intro to GIS and QGIS
Link NOC:Remote Sensing and GIS for Rural Development Lecture 17 - Intro to GIS data types and download
Link NOC:Remote Sensing and GIS for Rural Development Lecture 18 - Intro to GIS vector data type and QGIS panel
Link NOC:Remote Sensing and GIS for Rural Development Lecture 19 - Vector Tools in QGIS
Link NOC:Remote Sensing and GIS for Rural Development Lecture 20 - QGIS tutorials for vector analysis and data searching
Link NOC:Remote Sensing and GIS for Rural Development Lecture 21 - Intro to Raster Data type in GIS
Link NOC:Remote Sensing and GIS for Rural Development Lecture 22 - Raster data type formats and uses
Link NOC:Remote Sensing and GIS for Rural Development Lecture 23 - Raster data and Vector data quality issues
Link NOC:Remote Sensing and GIS for Rural Development Lecture 24 - Raster data tools: Raster calculator and Raster Align
Link NOC:Remote Sensing and GIS for Rural Development Lecture 25 - Raster data tools: Clip and Masking tools
Link NOC:Remote Sensing and GIS for Rural Development Lecture 26 - Intro to GIS Projections and Co-ordinate systems
Link NOC:Remote Sensing and GIS for Rural Development Lecture 27 - Intro to digitization of images for raster data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 28 - Digitization of scanned maps into raster data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 29 - Extracting point and line features from georeferenced data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 30 - Extracting polygon features from georeferenced data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 31 - Creating shapefiles from georefrenced maps
Link NOC:Remote Sensing and GIS for Rural Development Lecture 32 - Google Earth Pro introduction for extracting data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 33 - Ground Control points from Google Earth Pro and Basemaps
Link NOC:Remote Sensing and GIS for Rural Development Lecture 34 - Digital Elevation models and sources
Link NOC:Remote Sensing and GIS for Rural Development Lecture 35 - Digital Elevation models (hands on example)
Link NOC:Remote Sensing and GIS for Rural Development Lecture 36 - Introduction to Land Use Land Cover
Link NOC:Remote Sensing and GIS for Rural Development Lecture 37 - Data for LULC and proxy data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 38 - Analyzing Bhuvan LULC data - Part 1
Link NOC:Remote Sensing and GIS for Rural Development Lecture 39 - Analyzing Bhuvan LULC data - Part 2
Link NOC:Remote Sensing and GIS for Rural Development Lecture 40 - Analyzing USGS LULC data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 41 - Different types of LULC classifications
Link NOC:Remote Sensing and GIS for Rural Development Lecture 42 - Different types of LULC classifications
Link NOC:Remote Sensing and GIS for Rural Development Lecture 43 - Remote Sensing for irrigation assessments
Link NOC:Remote Sensing and GIS for Rural Development Lecture 44 - Remote Sensing for Groundwater irrigation assessments
Link NOC:Remote Sensing and GIS for Rural Development Lecture 45 - Methods for Crop Statistics using Remote Sensing data
Link NOC:Remote Sensing and GIS for Rural Development Lecture 46 - Remote Sensing based indicators for rural development
Link NOC:Remote Sensing and GIS for Rural Development Lecture 47 - Remote Sensing methods for crop area and health assessments
Link NOC:Remote Sensing and GIS for Rural Development Lecture 48 - NDVI data access
Link NOC:Remote Sensing and GIS for Rural Development Lecture 49 - NDVI data from NASA platforms
Link NOC:Remote Sensing and GIS for Rural Development Lecture 50 - NDVI data from Sentinel and NASA platforms
Link NOC:Remote Sensing and GIS for Rural Development Lecture 51 - Remote Sensing based indicators database
Link NOC:Remote Sensing and GIS for Rural Development Lecture 52 - Synergized mapping using Remote Sensing and Crowd Sourced data for rural infrastructures
Link NOC:Remote Sensing and GIS for Rural Development Lecture 53 - RS and OSM for mapping rural infrastructures: Schools
Link NOC:Remote Sensing and GIS for Rural Development Lecture 54 - RS and OSM for mapping rural infrastructures: Hospitals
Link NOC:Remote Sensing and GIS for Rural Development Lecture 55 - RS and OSM for mapping rural infrastructures: Adding data, crops and water bodies
Link NOC:Remote Sensing and GIS for Rural Development Lecture 56 - RS and GIS application for Rural Development: Moniotring and Evaluation
Link NOC:Remote Sensing and GIS for Rural Development Lecture 57 - RS and GIS application for Rural Development: Monitoring and Evaluation using NDVI and NDWI
Link NOC:Remote Sensing and GIS for Rural Development Lecture 58 - RS and GIS application for Rural Development: Water Quality Assessment
Link NOC:Remote Sensing and GIS for Rural Development Lecture 59 - RS and GIS application for Rural Development: Indicators and Dashboards
Link NOC:Remote Sensing and GIS for Rural Development Lecture 60 - RS and GIS for Rural Development - Summary, Wrap and Ways Forward
Link Concrete Technology Lecture 1 - Production and Composition
Link Concrete Technology Lecture 2 - Structure and Hydration
Link Concrete Technology Lecture 3 - Structure and Hydration
Link Concrete Technology Lecture 4 - Properties and Tests
Link Concrete Technology Lecture 5 - Types and Use
Link Concrete Technology Lecture 6 - Aggregates (Size, Shape)
Link Concrete Technology Lecture 7 - Packing, FM, SM
Link Concrete Technology Lecture 8 - Properties
Link Concrete Technology Lecture 9 - Chemical Admixtures
Link Concrete Technology Lecture 10 - Chemical Admixtures
Link Concrete Technology Lecture 11 - Mineral Admixtures
Link Concrete Technology Lecture 12 - Mineral Admixtures
Link Concrete Technology Lecture 13 - Mineral Admixtures
Link Concrete Technology Lecture 14 - Mix Proportioning of Concrete: General Principles
Link Concrete Technology Lecture 15 - Mix design of Concrete: General and IS Method
Link Concrete Technology Lecture 16 - Mix Design of Concrete: Is Example and British (DOE) Method
Link Concrete Technology Lecture 17 - Mix Design of concrete: ACI 211 Method
Link Concrete Technology Lecture 18 - Mix Design of concrete: Packing Density, Rheology
Link Concrete Technology Lecture 19 - Batching and Mixing of concrete: General Principles
Link Concrete Technology Lecture 20 - RMC and Transporting Concrete
Link Concrete Technology Lecture 21 - Workability and Pumping of Concrete
Link Concrete Technology Lecture 22 - Compaction and Curing Concrete
Link Concrete Technology Lecture 23 - Strength of Concrete: Factors Affecting
Link Concrete Technology Lecture 24 - Strength of Concrete: Aggregate Contribution
Link Concrete Technology Lecture 25 - Strength of Concrete: Factors Affecting Test Results
Link Concrete Technology Lecture 26 - Mechanical Properties of Concrete:Elastic Moduls, Poision'Ratio, Fatigue, Impact
Link Concrete Technology Lecture 27 - Creep of Concrete
Link Concrete Technology Lecture 28 - Creep and Shrinkage of Concrete
Link Concrete Technology Lecture 29 - Shrinkage of Concrete
Link Concrete Technology Lecture 30 - Shrinkage of Concrete
Link Concrete Technology Lecture 31 - Fundamental Concepts, Degradation Process, Attacks
Link Concrete Technology Lecture 32 - Frost Action and Rebar Corrosion
Link Concrete Technology Lecture 33 - Carbonation and Chloride Affect
Link Concrete Technology Lecture 34 - Rebar Corrosion
Link Concrete Technology Lecture 35 - Rebar Corrosion and General Strateggy
Link Concrete Technology Lecture 36 - High Strength Concrete
Link Concrete Technology Lecture 37 - High Strength Matrics and SCC
Link Concrete Technology Lecture 38 - Self Compacting Concrete
Link Concrete Technology Lecture 39 - Fiber Concrete
Link Concrete Technology Lecture 40 - Fiber and Roller Compacted Concrete
Link Concrete Technology Lecture 41 - Special Concrete and Sustainability
Link Seismic Analysis of Structures Lecture 1 - Seismology
Link Seismic Analysis of Structures Lecture 2 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 3 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 4 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 5 - Seismic Inputs
Link Seismic Analysis of Structures Lecture 6 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 7 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 8 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 9 - Response Analysis for Specified Ground Motion
Link Seismic Analysis of Structures Lecture 10 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 11 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 12 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 13 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 14 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 15 - Frequency Domain Spectral Analysis
Link Seismic Analysis of Structures Lecture 16 - Frequency Domain Spectral Analysis.
Link Seismic Analysis of Structures Lecture 17 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 18 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 19 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 20 - Response Spectrum Method of Analysis
Link Seismic Analysis of Structures Lecture 21 - Response Spectrum Method of Analysis.
Link Seismic Analysis of Structures Lecture 22 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 23 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 24 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 25 - Inelastic Seismic Response of Structures
Link Seismic Analysis of Structures Lecture 26 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 27 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 28 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 29 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 30 - Inelastic Seismic Response of Structures (Continued...)
Link Building materials and Construction Lecture 1 - Functions Of Buildings
Link Building materials and Construction Lecture 2 - Role Of Material In Construction
Link Building materials and Construction Lecture 3 - Concrete:Material
Link Building materials and Construction Lecture 4 - Concrete Production (Continued...)
Link Building materials and Construction Lecture 5 - Concrete Production (Continued...)
Link Building materials and Construction Lecture 6 - Concrete:Production Pumping, Placing
Link Building materials and Construction Lecture 7 - Concrete:Production Curing
Link Building materials and Construction Lecture 8 - Cement: Hydration
Link Building materials and Construction Lecture 9 - Cement and Cementitious Material
Link Building materials and Construction Lecture 10 - Fresh Concrete
Link Building materials and Construction Lecture 11 - Fresh Concrete : Role of Mix Parameters
Link Building materials and Construction Lecture 12 - Fresh Concrete : Role of Admixtures
Link Building materials and Construction Lecture 13 - Fresh Concrete : Segregation Bleeding
Link Building materials and Construction Lecture 14 - Strength of Concrete - I
Link Building materials and Construction Lecture 15 - Strength of Concrete - II
Link Building materials and Construction Lecture 16 - Strength of Concrete - III
Link Building materials and Construction Lecture 17 - Mechanical Properties of Concrete - I
Link Building materials and Construction Lecture 18 - Mechanical Properties of Concrete - II
Link Building materials and Construction Lecture 19 - Strength of Concrete : Non Destructive
Link Building materials and Construction Lecture 20 - Durability of Concrete - I
Link Building materials and Construction Lecture 21 - Durability of Concrete - II
Link Building materials and Construction Lecture 22 - Durability of Concrete - III
Link Building materials and Construction Lecture 23 - Cement Aggregate and Water Selection
Link Building materials and Construction Lecture 24 - Mix Design of Concrete
Link Building materials and Construction Lecture 25 - Mix Design Of concrete IS Method
Link Building materials and Construction Lecture 26 - Mix Design Of Concrete: British
Link Building materials and Construction Lecture 27 - Masonry : Materials
Link Building materials and Construction Lecture 28 - Masonry : Walls
Link Building materials and Construction Lecture 29 - Masonry : Walls; Resistance - I
Link Building materials and Construction Lecture 30 - Masonry : Walls; Resistance - II
Link Building materials and Construction Lecture 31 - Walls : Functional Performances
Link Building materials and Construction Lecture 32 - Walls : Defects and Durability
Link Building materials and Construction Lecture 33 - Metals Fundamentals
Link Building materials and Construction Lecture 34 - Metals and Iron Systems
Link Building materials and Construction Lecture 35 - Steel : Uses in Construction
Link Building materials and Construction Lecture 36 - Steel : Uses in Rebar
Link Building materials and Construction Lecture 37 - Polymer in Construction
Link Building materials and Construction Lecture 38 - Polymer in Construction : Uses
Link Building materials and Construction Lecture 39 - Glass and Timber : Glass
Link Building materials and Construction Lecture 40 - Glass and Timber : Timber
Link Building materials and Construction Lecture 41 - Roof and Floor Construction
Link Water Management Lecture 1 - Introduction to Irrigation Water Management
Link Water Management Lecture 2 - Soil - Water - Plant Relationships
Link Water Management Lecture 3 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 4 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 5 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 6 - Soil - Water - Plant Relationships (Continued...) and Infiltration
Link Water Management Lecture 7 - Crop Water Requirements
Link Water Management Lecture 8 - Crop Water Requirements (Continued...)
Link Water Management Lecture 9 - Crop Water Requirements (Continued...)
Link Water Management Lecture 10 - Crop Water Requirements (Continued...)
Link Water Management Lecture 11 - Crop Water Requirements (Continued...)
Link Water Management Lecture 12 - Crop Water Requirements (Continued...)
Link Water Management Lecture 13 - Crop Water Requirements (continued...)
Link Water Management Lecture 14 - Irrigation Efficiencies - Part I
Link Water Management Lecture 15 - Irrigation Efficiencies - Part II and Irrigation Methods and their Suitability
Link Water Management Lecture 16 - Irrigation Methods - III
Link Water Management Lecture 17 - Irrigation Methods - IV
Link Water Management Lecture 18 - Irrigation Methods - V
Link Water Management Lecture 19 - Irrigation Methods - VI
Link Water Management Lecture 20 - Irrigation Methods and their Suitability
Link Water Management Lecture 21 - Border Irrigation System - I
Link Water Management Lecture 22 - Border Irrigation System - II
Link Water Management Lecture 23 - Border Irrigation System - III
Link Water Management Lecture 24 - Border Irrigation System - IV
Link Water Management Lecture 25 - Furrow Irrigation System - I
Link Water Management Lecture 26 - Furrow Irrigation System - II
Link Water Management Lecture 27 - Furrow Irrigation System - III
Link Water Management Lecture 28 - Furrow Irrigation System - IV
Link Water Management Lecture 29 - Sprinkler Irrigation System - I
Link Water Management Lecture 30 - Sprinkler Irrigation System - II
Link Water Management Lecture 31 - Sprinkler Irrigation System - III
Link Water Management Lecture 32 - Sprinkler Irrigation System - IV
Link Water Management Lecture 33 - Sprinkler Irrigation System - V
Link Water Management Lecture 34 - Sprinkler Irrigation System - VI
Link Water Management Lecture 35 - Sprinkler Irrigation System - VII
Link Water Management Lecture 36 - Sprinkler Irrigation System - VIII
Link Water Management Lecture 37 - Drip Irrigation System - I
Link Water Management Lecture 38 - Drip Irrigation System - II
Link Water Management Lecture 39 - Drip Irrigation System - III
Link Water Management Lecture 40 - Drip Irrigation System - IV
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 1 - Introduction to Geoenvironmental Engineering
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 2 - Sources and Impact of Contamination
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 3 - Waste-Soil Interaction
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 4 - Solid Waste Generation and Disposal
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 5 - Waste Minimization by Integrated Solid Waste Management (ISWM)
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 6 - Integrated Solid Waste Management (ISWM) - Case Studies
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 7 - Principles of Landfilling
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 8 - Planning of Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 9 - Planning of Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 10 - Liners for Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 11 - Liners for Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 12 - Liners for Landfills - Part 3
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 13 - Liners for Landfills - Part 4
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 14 - Covers for Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 15 - Covers for Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 16 - Generation and Control of Leachate
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 17 - Generation and Control of Landfill Gas
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 18 - Stability of Slopes - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 19 - Stability of Slopes - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 20 - Stability of Slopes - Part 3
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 21 - Settlement of Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 22 - Some Solved Examples
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 23 - Subsurface Monitoring Around Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 24 - Subsurface Monitoring Around Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 25 - Cost of Geotechnical Components of Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 26 - Construction and Operation of Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 27 - Site Selection for Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 28 - Closure, Rehabilitation and Expansion of MSW Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 29 - Control and Remedial Measures at Contaminated Sites - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 30 - Control and Remedial Measures at Contaminated Sites - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 31 - Slurry Disposal on Land
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 32 - Disposal of Slurry Waste in Ponds and Impoundments and Dry Waste in Mounds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 33 - Geotechnical Properties of Coal Ash and Mine Tailings - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 34 - Geotechnical Properties of Coal Ash and Mine Tailings - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 35 - Planning and Design of Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 36 - Stability of Incrementally Raised Embankments - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 37 - Stability of Incrementally Raised Embankments - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 38 - Remedial Measures for Slope Failures in Embankments / Dykes of Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 39 - Environmental Control at Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 40 - Geotechnical Reuse of Waste Materials - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 41 - Geotechnical Reuse of Waste Materials - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 42 - End-of-the-Course Review
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 1 - Introduction to Environmental Factors - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 2 - Introduction to Environmental Factors - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 3 - Introduction to Environmental Factors - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 4 - Introduction to Environmental Factors - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 5 - Introduction to Environmental Factors - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 6 - Introduction to Environmental Factors - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 7 - Introduction to Environmental Factors - 7
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 8 - Comfort and Heat Transfer Concepts
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 9 - Heat Flow in Buildings - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 10 - Heat Flow in buildings - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 11 - Heat Flow in buildings - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 12 - Admittance Method - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 13 - Admittance Method - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 14 - Heat Flow in buildings - 1 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 15 - Heat Flow in buildings - 2 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 16 - Heat Flow in buildings - 2 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 17 - Heat flow in buildings
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 18 - Admittance Method
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 19 - Comfort - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 20 - Comfort - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 21 - Comfort and Thermal Design of Buildings - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 22 - Comfort and Thermal Design of Buildings - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 23 - Comfort and Thermal Design of Buildings - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 24 - Thermal Design of Unconditioned Building
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 25 - External Shading Multipliers for external suns shading
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 26 - Passive Concepts
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 27 - Design for Thermal Efficiency
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 28 - Ventilation - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 29 - Ventilation - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 30 - Natural ventilation design
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 31 - Noise and Acoustic Fundamentals - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 32 - Noise and Acoustic Fundamentals - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 33 - Noise and Acoustic Fundamentals - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 34 - Noise and Acoustic Fundamentals, Noise Outdoors
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 35 - Noise outdoors
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 36 - Sound within enclosure - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 37 - Sound within enclosure - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 38 - Sound within enclosure - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 39 - Sound within enclosure - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 40 - Sound within enclosure - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 41 - Sound within enclosure - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 42 - Sound within enclosure, isolation
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 43 - Isolation - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 44 - Isolation - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 45 - Auditorium - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 46 - Auditorium - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 47 - Daylighting - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 48 - Daylighting - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 49 - Daylighting - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 50 - Daylighting - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 51 - Daylighting - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 52 - Daylighting - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 53 - Artificial Lighting
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 54 - Design Sky models
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 55 - Live Session
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 1 - Basic concepts of Fire Protection - I
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 2 - Basic concepts of Fire Protection - II
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 3 - Fire Resistance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 4 - Introduction Process of Combustion
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 5 - ventilation and fuel Process of Combustion controlled fire
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 6 - Process of Combustion: Flashover condition
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 7 - Effect of Fire on Construction Materials
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 8 - Design for Fire Resistance: Steel
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 9 - Design for Fire Resistance: Steel
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 10 - Design for Fire Resistance: Concrete
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 11 - Fire Safety: Urban Planning
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 12 - Fire Safety: Escape and Refuge
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 13 - Fire safety: Internal planning, Detection and Suppression
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 14 - Fire Safety: Detection and Suppression
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 15 - Introduction to Lift Design
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 16 - Design of Lift systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 17 - Design of Lift systems: expected stops and floor of reversal
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 18 - Design of Lift systems: Different cases
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 19 - Design of Lift systems: Simulation and arrangement and Escalators
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 20 - Introduction to System and Flow Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 21 - Water Supply System: Constant Demand
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 22 - Water Supply System: Variable Demand and Diversity Factor
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 23 - Diversity factor (Continued...)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 24 - Control Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 25 - Introduction to HVAC
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 26 - Governing Equations for HVAC Process
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 27 - Numerical Problem on HVAC System
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 28 - Numerical Problem on HVAC System (Continued...)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 29 - Psychrometric Chart: Equation based Approach
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 30 - Flow in Pipe Networks and Fixture Units
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 31 - Flow in Pipe Networks (Continued...) and Design of Water Supply Distribution System
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 32 - Design of Water Supply Distribution System (Continued...) and Flow in Waste Water pipes
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 33 - Electrical Systems (introduction)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 34 - Design of Electrical Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 35 - Intelligent Building
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 36 - Life cycle cost and basics of building maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 37 - Stages of maintenance management
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 38 - Planning for building maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 39 - Periodicity of maintenance management
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 40 - Estimation of repair cycle
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 41 - Cost profile of maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 42 - Lamp replacement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 43 - Building inspection, Planned and Ad-hoc maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 44 - Condition survey and health evaluation of buildings
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 45 - Diagnosis of building by visual survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 46 - Case studies of visual survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 47 - Effect of corrosion and Alkali Aggregate Reaction
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 48 - Sampling and choice of test location
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 49 - Non Destructive Testing - 1
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 50 - Non Destructive Testing - 2
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 51 - Core strength test
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 52 - Carbonation and Chloride measurement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 53 - Electrical methods of progress measurement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 54 - Repair, Rehabilitation and Retrofit
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 55 - Periodicity and economics of condition survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 56 - Interpretation of test results
Link NOC:Sustainable Materials and Green Buildings Lecture 1 - Introduction and Planet Equivalent
Link NOC:Sustainable Materials and Green Buildings Lecture 2 - Basics of Carbon Cycle
Link NOC:Sustainable Materials and Green Buildings Lecture 3 - Factors Affecting carbon Cycle
Link NOC:Sustainable Materials and Green Buildings Lecture 4 - Fundamentals of Sustainability
Link NOC:Sustainable Materials and Green Buildings Lecture 5 - Role of Materials and Embodied Energy
Link NOC:Sustainable Materials and Green Buildings Lecture 6 - Case Study for Energy in Building
Link NOC:Sustainable Materials and Green Buildings Lecture 7 - Calculation of Ecological Footprint
Link NOC:Sustainable Materials and Green Buildings Lecture 8 - Role of Cement in Sustainability and Calculation of Chemical Exergy
Link NOC:Sustainable Materials and Green Buildings Lecture 9 - Fuel for Cement
Link NOC:Sustainable Materials and Green Buildings Lecture 10 - Cemebtitious/Supplementary Cementitious Materials and Their Characterization
Link NOC:Sustainable Materials and Green Buildings Lecture 11 - Strength of Concrete With Supplementary Cementitious Materials and Composite Cements
Link NOC:Sustainable Materials and Green Buildings Lecture 12 - Types of Composite Cements
Link NOC:Sustainable Materials and Green Buildings Lecture 13 - Alternative Fuel for cement and Embodied Energy
Link NOC:Sustainable Materials and Green Buildings Lecture 14 - Life Cycle Embodied Energy and Concrete Sustainability
Link NOC:Sustainable Materials and Green Buildings Lecture 15 - Strength of Concrete and Use of Admixtures
Link NOC:Sustainable Materials and Green Buildings Lecture 16 - Curing Methods and Use of Waste Water for Mixing and Curing
Link NOC:Sustainable Materials and Green Buildings Lecture 17 - Modern Composite Concrete
Link NOC:Sustainable Materials and Green Buildings Lecture 18 - Recycled Aggregate-ITZ and Proessing
Link NOC:Sustainable Materials and Green Buildings Lecture 19 - Classification of Recycled Aggregate: Crushing and Grinding of Aggregates
Link NOC:Sustainable Materials and Green Buildings Lecture 20 - Crushing and Grinding: Bond's Law+Operational Energy: U-Value
Link NOC:Sustainable Materials and Green Buildings Lecture 21 - Operational Energy: Thermal Conductivity Models
Link NOC:Sustainable Materials and Green Buildings Lecture 22 - Operational Energy: Thermal Conductivity Models (Continued...)
Link NOC:Sustainable Materials and Green Buildings Lecture 23 - Operational Energy: Estimation of Thermal Conductivity
Link NOC:Sustainable Materials and Green Buildings Lecture 24 - Thermal Diffusivity and Clay Bricks
Link NOC:Sustainable Materials and Green Buildings Lecture 25 - Types of Bricks Kilns and Carbon Balance
Link NOC:Sustainable Materials and Green Buildings Lecture 26 - Carbon Balance, Comparison of Various Types of Brick Kilns and Sealants, Paints, Adhesive
Link NOC:Sustainable Materials and Green Buildings Lecture 27 - Sealants, Health Hazards of Building Materials and Emission Models
Link NOC:Sustainable Materials and Green Buildings Lecture 28 - Emission Models and Testing
Link NOC:Sustainable Materials and Green Buildings Lecture 29 - Energy Efficient Design of Buildings
Link NOC:Sustainable Materials and Green Buildings Lecture 30 - Design Optimization of Buildings
Link NOC:Sustainable Materials and Green Buildings Lecture 31 - Building Design Optimization Using Genetic Algorithm
Link NOC:Sustainable Materials and Green Buildings Lecture 32 - Urban Heat Island: Radiation Concepts
Link NOC:Sustainable Materials and Green Buildings Lecture 33 - Urban Heat Island: Urban Canopy Layer
Link NOC:Sustainable Materials and Green Buildings Lecture 34 - Evapotranspiration: Theory and Models
Link NOC:Sustainable Materials and Green Buildings Lecture 35 - Evapotranspiration: Case Study and Surface Water Balance
Link NOC:Sustainable Materials and Green Buildings Lecture 36 - Energy Conservation Building Code (ECBC2007)
Link NOC:Sustainable Materials and Green Buildings Lecture 37 - Energy Conservation Building Code (ECBC2007) (Continued...)
Link NOC:Sustainable Materials and Green Buildings Lecture 38 - ECBC Compliant Methodology
Link NOC:Sustainable Materials and Green Buildings Lecture 39 - OTTV Methodology
Link NOC:Sustainable Materials and Green Buildings Lecture 40 - Solar Energy and Solar Cells
Link NOC:Sustainable Materials and Green Buildings Lecture 41 - Solar Photo Volatic Cells
Link NOC:Sustainable Materials and Green Buildings Lecture 42 - Solar Water Heating
Link NOC:Sustainable Materials and Green Buildings Lecture 43 - Design Strategies and the Green Design Process
Link NOC:Sustainable Materials and Green Buildings Lecture 44 - Green Building Rating Systems
Link NOC:Sustainable Materials and Green Buildings Lecture 45 - Autoclaved Aerated Concrete, Insulated Precast System and Insulated Precast Forms
Link NOC:Sustainable Materials and Green Buildings Lecture 46 - Insulated Concrete Form and Tunnel Form
Link NOC:Sustainable Materials and Green Buildings Lecture 47 - Modular Construction
Link NOC:Scheduling Techniques in Projects Lecture 1 - Introduction to Projects
Link NOC:Scheduling Techniques in Projects Lecture 2 - Inputs to Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 3 - Critical Path Method
Link NOC:Scheduling Techniques in Projects Lecture 4 - Precedence Diagramming Method
Link NOC:Scheduling Techniques in Projects Lecture 5 - Line of Balance Method
Link NOC:Scheduling Techniques in Projects Lecture 6 - Resource-driven Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 7 - Information-driven Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 8 - Dependency Structure Matrix - I
Link NOC:Scheduling Techniques in Projects Lecture 9 - Dependency Structure Matrix - II
Link NOC:Scheduling Techniques in Projects Lecture 10 - Dependency Structure Matrix - III
Link NOC:Scheduling Techniques in Projects Lecture 11 - Beeline Diagramming Method
Link NOC:Scheduling Techniques in Projects Lecture 12 - Other Scheduling Techniques
Link NOC:Safety in Construction Lecture 1 - Introduction to Safety in Construction
Link NOC:Safety in Construction Lecture 2 - Introduction to Safety Standards; Signs, Signals in Construction
Link NOC:Safety in Construction Lecture 3 - Role of Stakeholders in Construction safety
Link NOC:Safety in Construction Lecture 4 - Cost of Injury Vs Investment in Safety
Link NOC:Safety in Construction Lecture 5 - Safety Program Accident/Incident Investigation
Link NOC:Safety in Construction Lecture 6 - PPE in Construction
Link NOC:Safety in Construction Lecture 7 - A Case Study on Construction Safety
Link NOC:Safety in Construction Lecture 8 - Introduction to Fatal Falls
Link NOC:Safety in Construction Lecture 9 - Fall hazard in Concerting
Link NOC:Safety in Construction Lecture 10 - Fall hazard in Demolition Works
Link NOC:Safety in Construction Lecture 11 - Safety in Demolttion Work Practical Examples
Link NOC:Safety in Construction Lecture 12 - Trench Cav-ins
Link NOC:Safety in Construction Lecture 13 - Tunneling Safety
Link NOC:Safety in Construction Lecture 14 - Struck by and Caught-inbetween
Link NOC:Safety in Construction Lecture 15 - Crane Safety
Link NOC:Safety in Construction Lecture 16 - A case Study on Construction Safety - Jigar-Crane
Link NOC:Safety in Construction Lecture 17 - A case Study on Construction Safety - Safety Talk
Link NOC:Safety in Construction Lecture 18 - Fire Safety and Steel Construction
Link NOC:Safety in Construction Lecture 19 - Electrical Safety
Link NOC:Safety in Construction Lecture 20 - A case Study on Construction Safety - Contractual Provision on Construction Zone Safety
Link NOC:Safety in Construction Lecture 21 - Health Issues in Construction
Link NOC:Safety in Construction Lecture 22 - Ergonomics and Health Issues with Concerting
Link NOC:Safety in Construction Lecture 23 - General Safety Precautions
Link NOC:Safety in Construction Lecture 24 - Safety in MEP Services
Link NOC:Safety in Construction Lecture 25 - Managing Hazards in Construction
Link NOC:Safety in Construction Lecture 26 - BIM for Construction
Link NOC:Safety in Construction Lecture 27 - BIM for Safety
Link Advanced Hydraulics Lecture 1 - Introduction - advanced hydraulics & course structure
Link Advanced Hydraulics Lecture 2 - Various classifications of open channel flows
Link Advanced Hydraulics Lecture 3 - Flow classifications & velocity distribution
Link Advanced Hydraulics Lecture 4 - Pressure distribution
Link Advanced Hydraulics Lecture 5 - Equation of continuity & energy
Link Advanced Hydraulics Lecture 6 - Specific energy & critical flow
Link Advanced Hydraulics Lecture 7 - Energy, momentum & specific force
Link Advanced Hydraulics Lecture 8 - Computation of critical flow - Part 1
Link Advanced Hydraulics Lecture 9 - Critical flow computations
Link Advanced Hydraulics Lecture 10 - Introduction to uniform flow
Link Advanced Hydraulics Lecture 11 - Manning's equation and normal depth
Link Advanced Hydraulics Lecture 12 - Uniform Flow Computations - Part 1
Link Advanced Hydraulics Lecture 13 - Uniform flow in compound sections, concept of normal slope
Link Advanced Hydraulics Lecture 14 - Uniform flow approximation for flood discharge
Link Advanced Hydraulics Lecture 15 - Design of channels for uniform flow
Link Advanced Hydraulics Lecture 16 - Design of channels using uniform flow
Link Advanced Hydraulics Lecture 17 - Design of erodible channels
Link Advanced Hydraulics Lecture 18 - Introduction to gradually varied flows
Link Advanced Hydraulics Lecture 19 - Gradually varied flow equations
Link Advanced Hydraulics Lecture 20 - Classification of gradually varied flow - Part 1
Link Advanced Hydraulics Lecture 21 - Classification of gradually varied flow - Part 2
Link Advanced Hydraulics Lecture 22 - Gradually varied flow profiles with change in bed slopes
Link Advanced Hydraulics Lecture 23 - GVF profile properties and transitional depths
Link Advanced Hydraulics Lecture 24 - Gradually varied flow computations - Part 1
Link Advanced Hydraulics Lecture 25 - Gradually varied flow computations RK method - Part 2
Link Advanced Hydraulics Lecture 26 - Standard step method for gradually varied flow computations
Link Advanced Hydraulics Lecture 27 - Spatially varied flow
Link Advanced Hydraulics Lecture 28 - Features on spatially varied flow
Link Advanced Hydraulics Lecture 29 - Rapidly varied flow - introduction
Link Advanced Hydraulics Lecture 30 - Theoretical aspects of hydraulic jump
Link Advanced Hydraulics Lecture 31 - Characteristics of jumps in rectangular channel
Link Advanced Hydraulics Lecture 32 - Features of hydraulic jumps
Link Advanced Hydraulics Lecture 33 - Jumps as energy dissipators
Link Advanced Hydraulics Lecture 34 - Jump controls
Link Advanced Hydraulics Lecture 35 - Surges - Part 1
Link Advanced Hydraulics Lecture 36 - Surges - Part 2
Link Advanced Hydraulics Lecture 37 - Channel transitions - Part 1
Link Advanced Hydraulics Lecture 38 - Channel transitions - Part 2
Link Advanced Hydraulics Lecture 39 - Channel transitions - Part 3
Link Advanced Hydraulics Lecture 40 - Application of momentum principles
Link Advanced Hydraulics Lecture 41 - Pumps - 1
Link Advanced Hydraulics Lecture 42 - Turbines - Part 3 (pumps, turbines)
Link Advanced Hydraulics Lecture 43 - Turbines, cavitation
Link Design of Steel Structures Lecture 1 - Introduction to Design of Steel Structures
Link Design of Steel Structures Lecture 2 - Connections
Link Design of Steel Structures Lecture 3 - Riveted Connections
Link Design of Steel Structures Lecture 4 - Design of Rivet Joint
Link Design of Steel Structures Lecture 5 - Welding
Link Design of Steel Structures Lecture 6 - Design of Fillet and Butt Welds
Link Design of Steel Structures Lecture 7 - Bolted Connection
Link Design of Steel Structures Lecture 8 - Eccentric Connections: Rivet Joints
Link Design of Steel Structures Lecture 9 - Design of Eccentric Connection With Load Lying in Plane of Joint Rivet Bolt
Link Design of Steel Structures Lecture 10 - Eccentric Connection With Load Perpendicular to Plane of Riveted Joint
Link Design of Steel Structures Lecture 11 - Analysis and Design of Join with Seat Connection
Link Design of Steel Structures Lecture 12 - Eccentric Connection
Link Design of Steel Structures Lecture 13 - Load Lying Perpendicular to the Plane of Weld Joint
Link Design of Steel Structures Lecture 14 - Tension Member
Link Design of Steel Structures Lecture 15 - Design of Tension Member
Link Design of Steel Structures Lecture 16 - Design of Tension Member: Gusset Plates. Lug Angles and Tension Splices
Link Design of Steel Structures Lecture 17 - Design of Tension Member: Subjected to Axial and Bending
Link Design of Steel Structures Lecture 18 - Compression Member
Link Design of Steel Structures Lecture 19 - Design of Compression Member
Link Design of Steel Structures Lecture 20 - Design of Eccentrically Loaded tension Member
Link Design of Steel Structures Lecture 21 - Built up Compression Member
Link Design of Steel Structures Lecture 22 - Design of Built up Compression Member
Link Design of Steel Structures Lecture 23 - Lacing for Built Up Compression Member
Link Design of Steel Structures Lecture 24 - Design of Lacing System
Link Design of Steel Structures Lecture 25 - Design of Batten Plates
Link Design of Steel Structures Lecture 26 - Introduction to Flexural Members: Beams
Link Design of Steel Structures Lecture 27 - Design Procedure of Beam Members
Link Design of Steel Structures Lecture 28 - Design of Laterally Supported Beams
Link Design of Steel Structures Lecture 29 - Design of Laterally Unsupported Beams
Link Design of Steel Structures Lecture 30 - Built-Up Beams
Link Design of Steel Structures Lecture 31 - Built-Up Beams: Curtailment of the Flange Plates and Shear Connections
Link Design of Steel Structures Lecture 32 - Design of a Built-Up Beams
Link Design of Steel Structures Lecture 33 - Design of Shear Connections and Purlins
Link Design of Steel Structures Lecture 34 - Gantry Girders
Link Design of Steel Structures Lecture 35 - Design of Gantry Girders
Link Design of Steel Structures Lecture 36 - Introduction to Plate Girders - Part 1
Link Design of Steel Structures Lecture 37 - Introduction to Plate Girders - Part 2
Link Design of Steel Structures Lecture 38 - Design of a Plate Girder
Link Design of Steel Structures Lecture 39 - Column Base - Part 1
Link Design of Steel Structures Lecture 40 - Column Base - Part 2
Link Hydraulics Lecture 1 - Introduction to Hydraulics
Link Hydraulics Lecture 2 - Open Channel Hydraulics - Part 1
Link Hydraulics Lecture 3 - Open Channel Hydraulics - Part 2
Link Hydraulics Lecture 4 - Velocity and Pressure Distribution
Link Hydraulics Lecture 5 - Practical use of velocity co-efficient in channel flow
Link Hydraulics Lecture 6 - Conservation Principles & ioioGoverning Equations
Link Hydraulics Lecture 7 - Uniform Flow
Link Hydraulics Lecture 8 - Uniform Flow Formula
Link Hydraulics Lecture 9 - Computation of Uniform Flow - Part 1
Link Hydraulics Lecture 10 - Computation of Uniform Flow - Part 2
Link Hydraulics Lecture 11 - Uniform Flow in Mobile Boundary Channel
Link Hydraulics Lecture 12 - Incipient Motion Condition and Regime of Flow
Link Hydraulics Lecture 13 - Concept of Specific Energy
Link Hydraulics Lecture 14 - Computation of Critical Depth
Link Hydraulics Lecture 15 - Specific Force, Critical Depth & Sequent Depth
Link Hydraulics Lecture 16 - Non-uniform Flow: Gradually Varied Flow
Link Hydraulics Lecture 17 - Classification of Gradually Varied Flow
Link Hydraulics Lecture 18 - Characteristic of Gradually Varied Flow
Link Hydraulics Lecture 19 - Characteristic of Gradually Varied Flow & its Computation
Link Hydraulics Lecture 20 - Gradually Varied Flow & its Computation
Link Hydraulics Lecture 21 - Computation of Gradually Varied Flow
Link Hydraulics Lecture 22 - Gradually Varied Flow: Numerical Methods and Problem Solving
Link Hydraulics Lecture 23 - Rapidly Varied Flow: Hydraulic Jump
Link Hydraulics Lecture 24 - Hydraulic Jump
Link Hydraulics Lecture 25 - Flow Over Hump and Channel Contraction
Link Hydraulics Lecture 26 - Canal Design - 1
Link Hydraulics Lecture 27 - Canal Design - 2
Link Hydraulics Lecture 28 - Design of Alluvial Channel - 1
Link Hydraulics Lecture 29 - Design of Alluvial Channel - 2
Link Hydraulics Lecture 30 - Design of Alluvial Channel - 3
Link Hydraulics Lecture 31 - Unsteady Flow: Waves and its Classification
Link Hydraulics Lecture 32 - Unsteady Flow Part - 2
Link Hydraulics Lecture 33 - Unsteady Flow Part - 3
Link Hydraulics Lecture 34 - Pipe Flow: Friction Loss
Link Hydraulics Lecture 35 - Pipe Flow: Losses in Pipes
Link Hydraulics Lecture 36 - Pipe in Series & Parallel
Link Hydraulics Lecture 37 - Pipe Network Analysis
Link Hydraulics Lecture 38 - Water Hammer & Surge Tank
Link Hydraulics Lecture 39 - Pipe Flow Friction Loss
Link Hydraulics Lecture 40 - Pipe Flow: Losses in Pipe
Link NOC:Higher Surveying Lecture 1 - Introduction to Higher Surveying
Link NOC:Higher Surveying Lecture 2 - Understanding reference system, reference frame, and coordinate system for Earth
Link NOC:Higher Surveying Lecture 3 - Coordinate and datum transformations
Link NOC:Higher Surveying Lecture 4 - Projected coordinate system
Link NOC:Higher Surveying Lecture 5 - Fundamentals of astronomy
Link NOC:Higher Surveying Lecture 6 - Applications of concepts of astronomy
Link NOC:Higher Surveying Lecture 7 - Time
Link NOC:Higher Surveying Lecture 8 - Application of concepts of astronomy and time
Link NOC:Higher Surveying Lecture 9 - Fundamental concepts of error, accuracy, and error propagation
Link NOC:Higher Surveying Lecture 10 - Applications of error propagation
Link NOC:Higher Surveying Lecture 11 - Observation Equation Method of adjustments
Link NOC:Higher Surveying Lecture 12 - Condition Equation Method and Combined Method of adjustments
Link NOC:Higher Surveying Lecture 13 - Analysis of adjustments and reporting of errors
Link NOC:Higher Surveying Lecture 14 - Global Positioning System (GPS)
Link NOC:Higher Surveying Lecture 15 - Introduction to Photogrammetry
Link NOC:Higher Surveying Lecture 16 - Vertical photogrammetry
Link NOC:Higher Surveying Lecture 17 - Stereo photogrammetry
Link NOC:Higher Surveying Lecture 18 - Analytical photogrammetry - I
Link NOC:Higher Surveying Lecture 19 - Analytical photogrammetry - II
Link NOC:Higher Surveying Lecture 20 - Photogrammetric products
Link NOC:Higher Surveying Lecture 21 - Image matching
Link NOC:Higher Surveying Lecture 22 - Close range photogrammetry
Link NOC:Higher Surveying Lecture 23 - Fundamentals of LiDAR
Link NOC:Higher Surveying Lecture 24 - LiDAR data acquisition
Link NOC:Higher Surveying Lecture 25 - Geolocation and errors of LiDAR data
Link NOC:Higher Surveying Lecture 26 - Information extraction from LiDAR data
Link NOC:Higher Surveying Lecture 27 - RADAR fundamenetals - I
Link NOC:Higher Surveying Lecture 28 - RADAR fundamenetals - II
Link NOC:Higher Surveying Lecture 29 - RADAR fundamenetals - III
Link NOC:Higher Surveying Lecture 30 - Radargrammetry
Link NOC:Higher Surveying Lecture 31 - Geoscience perspective for RADAR applications
Link NOC:Higher Surveying Lecture 32 - Fundamental concepts of hydrographic survey
Link NOC:Higher Surveying Lecture 33 - Field procedures for hydrographic Surveying
Link NOC:Higher Surveying Lecture 34 - Modern techniques for hydrographic Survey
Link NOC:Higher Surveying Lecture 35 - Navigation
Link NOC:Higher Surveying Lecture 36 - Conclusive lecture
Link NOC:Unsaturated Soil Mechanics Lecture 1 - Fundamental Aspects of Unsaturated Soil Mechanics and its Basic Principles
Link NOC:Unsaturated Soil Mechanics Lecture 2 - Phases of Unsaturated Soils-I
Link NOC:Unsaturated Soil Mechanics Lecture 3 - Phases of Unsaturated Soils-II
Link NOC:Unsaturated Soil Mechanics Lecture 4 - Equilibrium between Air and Water Phases
Link NOC:Unsaturated Soil Mechanics Lecture 5 - Capillary Phenomenon in Unsaturated Soils - I
Link NOC:Unsaturated Soil Mechanics Lecture 6 - Capillary Phenomenon in Unsaturated Soils - II
Link NOC:Unsaturated Soil Mechanics Lecture 7 - Summary: Fundamental Principles and Constitutive Relationships
Link NOC:Unsaturated Soil Mechanics Lecture 8 - Concept of Water Retention and Soil Water Characteristics - I
Link NOC:Unsaturated Soil Mechanics Lecture 9 - Concept of Water Retention and Soil Water Characteristics - II
Link NOC:Unsaturated Soil Mechanics Lecture 10 - Hydraulic conductivity functions and determination of state variables
Link NOC:Unsaturated Soil Mechanics Lecture 11 - Suction Measurement/Control Techniques - I
Link NOC:Unsaturated Soil Mechanics Lecture 12 - Suction Measurement/Control Techniques - II
Link NOC:Unsaturated Soil Mechanics Lecture 13 - Summary: Suction Measurement and Control Techniques
Link NOC:Unsaturated Soil Mechanics Lecture 14 - HCF Determination
Link NOC:Unsaturated Soil Mechanics Lecture 15 - SWCC and HCF Models
Link NOC:Unsaturated Soil Mechanics Lecture 16 - HCF Modelling
Link NOC:Unsaturated Soil Mechanics Lecture 17 - Fitting of SWCC and HCF modelling
Link NOC:Unsaturated Soil Mechanics Lecture 18 - Pedo-transfer Functions (PTF)
Link NOC:Unsaturated Soil Mechanics Lecture 19 - Steady-State Flow Through Soils
Link NOC:Unsaturated Soil Mechanics Lecture 20 - Steady-State and Transient Flow
Link NOC:Unsaturated Soil Mechanics Lecture 21 - Analytical Methods for Transient Flow - I
Link NOC:Unsaturated Soil Mechanics Lecture 22 - Analytical Methods for Transient Flow - II
Link NOC:Unsaturated Soil Mechanics Lecture 23 - Shear Strength of Unsaturated Soils
Link NOC:Unsaturated Soil Mechanics Lecture 24 - Suction-Controlled Direct Shear Test
Link NOC:Unsaturated Soil Mechanics Lecture 25 - Suction-Controlled Triaxial Test
Link NOC:Unsaturated Soil Mechanics Lecture 26 - Extended M-C Criterion - I
Link NOC:Unsaturated Soil Mechanics Lecture 27 - Extended M-C Criterion - II
Link NOC:Unsaturated Soil Mechanics Lecture 28 - Extended M-C Criterion - III
Link NOC:Unsaturated Soil Mechanics Lecture 29 - Concept of Suction Stress - I
Link NOC:Unsaturated Soil Mechanics Lecture 30 - Concept of Suction Stress - II
Link NOC:Unsaturated Soil Mechanics Lecture 31 - Concept of Suction Stress - III
Link NOC:Unsaturated Soil Mechanics Lecture 32 - Summary: Shear Strength of Unsaturated Soils and Introduction to Volume Change
Link NOC:Unsaturated Soil Mechanics Lecture 33 - Swelling Behaviour of Soils
Link NOC:Unsaturated Soil Mechanics Lecture 34 - Estimation of Swelling Pressure in the Laboratory and Behaviour of Collapsible soil
Link NOC:Unsaturated Soil Mechanics Lecture 35 - Volume Change Behaviour of Bentonite and Kaolin Clay
Link NOC:Unsaturated Soil Mechanics Lecture 36 - Demonstration of Various Experiments Related to Unsaturated Soil Mechanics
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 1 - Introduction
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 2 - Phases and classification of subsurface Investigation
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 3 - Test Pits+ Borings
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 4 - Ground water table and rock drilling
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 5 - Standard Penetration Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 6 - Cone Penetration Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 7 - Dilatometer Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 8 - Pressuremeter Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 9 - Seismic reflection method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 10 - Seismic refraction method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 11 - Electrical Resistivity Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 12 - Magnetic Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 13 - Surface wave method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 14 - Gravity Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 15 - Offshore Investigation
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 16 - Geophysical Investigation in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 17 - Sampling and Geotechnical Investigations in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 18 - Important Terminologies in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 19 - Dynamic Testing in Pile Driving
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 20 - Dynamic Testing in Pile (Low Strain)
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 21 - Conclusion
Link NOC:Fluid Mechanics Lecture 1 - Basic Concepts of Fluid
Link NOC:Fluid Mechanics Lecture 2 - Properties of Fluid
Link NOC:Fluid Mechanics Lecture 3 - Properties of Fluid
Link NOC:Fluid Mechanics Lecture 4 - Concepts of Hydrostatic
Link NOC:Fluid Mechanics Lecture 5 - Measurement of Pressure and Hydrostatic forces
Link NOC:Fluid Mechanics Lecture 6 - Buoyancy, Metacentre, Stability and Rigid body motion
Link NOC:Fluid Mechanics Lecture 7 - Reynolds Transport Theorem
Link NOC:Fluid Mechanics Lecture 8 - Conservation of Mass
Link NOC:Fluid Mechanics Lecture 9 - Conservation of Momentum
Link NOC:Fluid Mechanics Lecture 10 - Conservation of Momentum Applications
Link NOC:Fluid Mechanics Lecture 11 - Bernoulli’s Equation
Link NOC:Fluid Mechanics Lecture 12 - Applications of Bernoulli’s Equation
Link NOC:Fluid Mechanics Lecture 13 - Fluid Statics Applications: Example Problems
Link NOC:Fluid Mechanics Lecture 14 - Conservation of Momentum: Example problems
Link NOC:Fluid Mechanics Lecture 15 - Bernoulli’s Equation: Problems Solving on Black Board
Link NOC:Fluid Mechanics Lecture 16 - Lagrangian and Eulerian Descriptions
Link NOC:Fluid Mechanics Lecture 17 - Motion and deformation of fluid elements
Link NOC:Fluid Mechanics Lecture 18 - Problems Solving on Black Board
Link NOC:Fluid Mechanics Lecture 19 - Dimensional Homogeneity
Link NOC:Fluid Mechanics Lecture 20 - Dimensional Analysis and Similarity
Link NOC:Fluid Mechanics Lecture 21 - Laminar and Turbulent Flows
Link NOC:Fluid Mechanics Lecture 22 - Losses in Pipe Fittings
Link NOC:Fluid Mechanics Lecture 23 - Flow in Noncircular Conduits and Multiple Path Pipeflow
Link NOC:Fluid Mechanics Lecture 24 - Mass Conservation Equation - I
Link NOC:Fluid Mechanics Lecture 25 - Mass Conservation Equation - II
Link NOC:Fluid Mechanics Lecture 26 - Stream Function
Link NOC:Fluid Mechanics Lecture 27 - Cauchy's Equation
Link NOC:Fluid Mechanics Lecture 28 - The Navier-Stokes Equation - Part I
Link NOC:Fluid Mechanics Lecture 29 - The Navier-Stokes Equation - Part II
Link NOC:Fluid Mechanics Lecture 30 - The Navier-Stokes Equation - Part III
Link NOC:Fluid Mechanics Lecture 31 - Approximate solutions of Navier Stokes Equation: Bounary Layer Approximation
Link NOC:Fluid Mechanics Lecture 32 - Boundary Layer Approximation - II
Link NOC:Fluid Mechanics Lecture 33 - Boundary Layer Approximation - III
Link NOC:Fluid Mechanics Lecture 34 - Open Channel Flow - I
Link NOC:Fluid Mechanics Lecture 35 - Open Channel Flow - II
Link NOC:Fluid Mechanics Lecture 36 - Open Channel Flow - III
Link NOC:Fluid Mechanics Lecture 37 - Drag and Lift
Link NOC:Remote Sensing and GIS Lecture 1 - Overview and Introduction
Link NOC:Remote Sensing and GIS Lecture 2 - Basics of Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 3 - Error corrections in satellite image
Link NOC:Remote Sensing and GIS Lecture 4 - Error Identification and Correction - I
Link NOC:Remote Sensing and GIS Lecture 5 - Error Identification and Correction - II
Link NOC:Remote Sensing and GIS Lecture 6 - Error Identification and Correction - III
Link NOC:Remote Sensing and GIS Lecture 7 - DIP - I
Link NOC:Remote Sensing and GIS Lecture 8 - DIP - II
Link NOC:Remote Sensing and GIS Lecture 9 - DIP - III
Link NOC:Remote Sensing and GIS Lecture 10 - DIP - IV
Link NOC:Remote Sensing and GIS Lecture 11 - Image Classification - I
Link NOC:Remote Sensing and GIS Lecture 12 - Image Classification - II
Link NOC:Remote Sensing and GIS Lecture 13 - Photogrammetry
Link NOC:Remote Sensing and GIS Lecture 14 - Thermal Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 15 - Microwave Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 16 - HRS - I
Link NOC:Remote Sensing and GIS Lecture 17 - HRS - II
Link NOC:Remote Sensing and GIS Lecture 18 - HRS - III
Link NOC:Remote Sensing and GIS Lecture 19 - HRS - IV
Link NOC:Remote Sensing and GIS Lecture 20 - HRS - V
Link NOC:Remote Sensing and GIS Lecture 21 - GIS - I
Link NOC:Remote Sensing and GIS Lecture 22 - GIS - II
Link NOC:Remote Sensing and GIS Lecture 23 - Applications of Remote Sensing and GIS - I
Link NOC:Remote Sensing and GIS Lecture 24 - Applications of Remote Sensing and GIS - II
Link NOC:River Engineering Lecture 1 - Introduction to River Engineering
Link NOC:River Engineering Lecture 2 - Basic properties of sediment - I
Link NOC:River Engineering Lecture 3 - Basic properties of sediment - II
Link NOC:River Engineering Lecture 4 - Mass Conservation
Link NOC:River Engineering Lecture 5 - Linear Momentum Equation
Link NOC:River Engineering Lecture 6 - Navier-Stokes Equations
Link NOC:River Engineering Lecture 7 - St. Venant Equation and Solver
Link NOC:River Engineering Lecture 8 - Specific Energy and Critical Flow
Link NOC:River Engineering Lecture 9 - Hydraulic Jump and Celerity
Link NOC:River Engineering Lecture 10 - Floodwave Celerity and Loop Rating Curve
Link NOC:River Engineering Lecture 11 - Sediment Transport in River - I
Link NOC:River Engineering Lecture 12 - Sediment Transport in River - II
Link NOC:River Engineering Lecture 13 - Sediment Transport in River - III
Link NOC:River Engineering Lecture 14 - Physical River Models
Link NOC:River Engineering Lecture 15 - Bridge Scour: processes and estimation
Link NOC:River Engineering Lecture 16 - Bridge Scour-II
Link NOC:River Engineering Lecture 17 - Jet Scour and River Navigation
Link NOC:River Engineering Lecture 18 - River Training Work
Link NOC:River Engineering Lecture 19 - Riverbank Stabilization - I
Link NOC:River Engineering Lecture 20 - Riverbank Stabilization - II
Link NOC:River Engineering Lecture 21 - Riverbank Protection and Control Structures
Link NOC:River Engineering Lecture 22 - River Equilibrium - I
Link NOC:River Engineering Lecture 23 - River Equilibrium - II
Link NOC:River Engineering Lecture 24 - River Equilibrium - III
Link NOC:Municipal Solid Waste Management Lecture 1 - Introduction to solid waste
Link NOC:Municipal Solid Waste Management Lecture 2 - Functional elements
Link NOC:Municipal Solid Waste Management Lecture 3 - Types and sources of solid waste
Link NOC:Municipal Solid Waste Management Lecture 4 - Sampling and characteristics
Link NOC:Municipal Solid Waste Management Lecture 5 - Estimation of solid waste quantity
Link NOC:Municipal Solid Waste Management Lecture 6 - Factors affecting solid waste generation rate
Link NOC:Municipal Solid Waste Management Lecture 7 - Handling, separation and storage at source
Link NOC:Municipal Solid Waste Management Lecture 8 - Processing at source
Link NOC:Municipal Solid Waste Management Lecture 9 - Primary collection
Link NOC:Municipal Solid Waste Management Lecture 10 - Types of collection system
Link NOC:Municipal Solid Waste Management Lecture 11 - Analysis of collection system - Part I
Link NOC:Municipal Solid Waste Management Lecture 12 - Analysis of collection system - Part II
Link NOC:Municipal Solid Waste Management Lecture 13 - Analysis of collection system - Part III
Link NOC:Municipal Solid Waste Management Lecture 14 - Need and types of transfer station
Link NOC:Municipal Solid Waste Management Lecture 15 - Transport means and methods
Link NOC:Municipal Solid Waste Management Lecture 16 - Unit operation for component separation
Link NOC:Municipal Solid Waste Management Lecture 17 - Material recovery facilities (MRF)
Link NOC:Municipal Solid Waste Management Lecture 18 - Recycling of dry waste components
Link NOC:Municipal Solid Waste Management Lecture 19 - Waste as a fuel
Link NOC:Municipal Solid Waste Management Lecture 20 - Incineration/Combustion
Link NOC:Municipal Solid Waste Management Lecture 21 - Flue gas characteristics and treatment
Link NOC:Municipal Solid Waste Management Lecture 22 - Solid residue generation, characterization and treatment
Link NOC:Municipal Solid Waste Management Lecture 23 - Waste-to-energy (WtE) plants (case studies) pyrolysis and gasification
Link NOC:Municipal Solid Waste Management Lecture 24 - Definition and phases of composting
Link NOC:Municipal Solid Waste Management Lecture 25 - Factors affecting composting process
Link NOC:Municipal Solid Waste Management Lecture 26 - Types of composting - I
Link NOC:Municipal Solid Waste Management Lecture 27 - Types of composting - II
Link NOC:Municipal Solid Waste Management Lecture 28 - Compost quality
Link NOC:Municipal Solid Waste Management Lecture 29 - Vermicomposting
Link NOC:Municipal Solid Waste Management Lecture 30 - Definition, stages and factors affecting anaerobic digestion
Link NOC:Municipal Solid Waste Management Lecture 31 - Pretreatment and co-digestion for enhancement of biogas production
Link NOC:Municipal Solid Waste Management Lecture 32 - Types of biogas digesters
Link NOC:Municipal Solid Waste Management Lecture 33 - Site selection and types of landfill
Link NOC:Municipal Solid Waste Management Lecture 34 - Leachate collection and treatment
Link NOC:Municipal Solid Waste Management Lecture 35 - Landfill gas collection and treatment
Link NOC:Municipal Solid Waste Management Lecture 36 - Design of landfill and Bio-minning of old dumpsite
Link NOC:Municipal Solid Waste Management Lecture 37 - Construction and demolition waste
Link NOC:Municipal Solid Waste Management Lecture 38 - Management of bio-mediacal, e-waste and inert waste
Link NOC:Municipal Solid Waste Management Lecture 39 - Integrated solid waste management (ISWM)
Link NOC:Municipal Solid Waste Management Lecture 40 - Municipal solid waste management rules
Link NOC:Municipal Solid Waste Management Lecture 41 - Financing in MSWM projects
Link NOC:Municipal Solid Waste Management Lecture 42 - Public-Private-Partnership (PPP)
Link NOC:Municipal Solid Waste Management Lecture 43 - Public-Private-Partnership (PPP) in MSWM projects
Link NOC:Construction Methods and Equipment Management Lecture 1 - Planning process of equipment
Link NOC:Construction Methods and Equipment Management Lecture 2 - Estimation of Ownership cost (Average Annual Investment method)
Link NOC:Construction Methods and Equipment Management Lecture 3 - Estimation of Ownership cost (Time value method)
Link NOC:Construction Methods and Equipment Management Lecture 4 - Operating cost of Equipment
Link NOC:Construction Methods and Equipment Management Lecture 5 - Equipment cost estimation
Link NOC:Construction Methods and Equipment Management Lecture 6 - Equipment life and replacement analysis - Part 1
Link NOC:Construction Methods and Equipment Management Lecture 7 - Equipment life and replacement analysis - Part 2
Link NOC:Construction Methods and Equipment Management Lecture 8 - Equipment life and replacement analysis - Part 3
Link NOC:Construction Methods and Equipment Management Lecture 9 - Engineering Fundamentals of Moving Earth
Link NOC:Construction Methods and Equipment Management Lecture 10 - Bull Dozers
Link NOC:Construction Methods and Equipment Management Lecture 11 - Scrapers - Part 1
Link NOC:Construction Methods and Equipment Management Lecture 12 - Scrapers - Part 2
Link NOC:Construction Methods and Equipment Management Lecture 13 - Front End loaders
Link NOC:Construction Methods and Equipment Management Lecture 14 - Excavators
Link NOC:Construction Methods and Equipment Management Lecture 15 - Trucks
Link NOC:Construction Methods and Equipment Management Lecture 16 - Piles and Pile driving equipment - Part 1
Link NOC:Construction Methods and Equipment Management Lecture 17 - Piles and Pile driving equipment - Part 2
Link NOC:Construction Methods and Equipment Management Lecture 18 - Cranes - Part 1
Link NOC:Construction Methods and Equipment Management Lecture 19 - Cranes - Part 2
Link NOC:Construction Methods and Equipment Management Lecture 20 - Concreting Equipment - Part 1
Link NOC:Construction Methods and Equipment Management Lecture 21 - Concreting Equipment - Part 2
Link NOC:Construction Methods and Equipment Management Lecture 22 - Summary
Link NOC:Advanced Soil Mechanics Lecture 1 - Introduction to course content
Link NOC:Advanced Soil Mechanics Lecture 2 - Stress acting at a point - Cauchy stress
Link NOC:Advanced Soil Mechanics Lecture 3 - Stress acting at a point - Stress tensor
Link NOC:Advanced Soil Mechanics Lecture 4 - Stress acting on a plane
Link NOC:Advanced Soil Mechanics Lecture 5 - Stress acting on a plane example
Link NOC:Advanced Soil Mechanics Lecture 6 - Transformation of stress tensor
Link NOC:Advanced Soil Mechanics Lecture 7 - Stress invariants
Link NOC:Advanced Soil Mechanics Lecture 8 - Relationship between stress invariants
Link NOC:Advanced Soil Mechanics Lecture 9 - Principle stresses and Eigen vectors
Link NOC:Advanced Soil Mechanics Lecture 10 - Strain in soils
Link NOC:Advanced Soil Mechanics Lecture 11 - Cause effect relationship
Link NOC:Advanced Soil Mechanics Lecture 12 - Important constitutive relationship
Link NOC:Advanced Soil Mechanics Lecture 13 - 3D to 2D idealization
Link NOC:Advanced Soil Mechanics Lecture 14 - Mathematical formulation plane stress plane strain
Link NOC:Advanced Soil Mechanics Lecture 15 - Mathematical formulation axisymmetric
Link NOC:Advanced Soil Mechanics Lecture 16 - Summary of Module 1
Link NOC:Advanced Soil Mechanics Lecture 17 - Basics of shear strength
Link NOC:Advanced Soil Mechanics Lecture 18 - Stress representation
Link NOC:Advanced Soil Mechanics Lecture 19 - Shear strength granular soil - I
Link NOC:Advanced Soil Mechanics Lecture 20 - Shear strength granular soil - II
Link NOC:Advanced Soil Mechanics Lecture 21 - Shear strength cohesive soil
Link NOC:Advanced Soil Mechanics Lecture 22 - Shear strength cohesive soil - Stress strain
Link NOC:Advanced Soil Mechanics Lecture 23 - Pore water pressure and Skemptons equation
Link NOC:Advanced Soil Mechanics Lecture 24 - Overall pore water pressure parameter
Link NOC:Advanced Soil Mechanics Lecture 25 - Pore water pressure - plane strain-effect of sampling
Link NOC:Advanced Soil Mechanics Lecture 26 - Pore water pressure estimation
Link NOC:Advanced Soil Mechanics Lecture 27 - Triaxial test
Link NOC:Advanced Soil Mechanics Lecture 28 - Interpretation triaxial test - UU UCS
Link NOC:Advanced Soil Mechanics Lecture 29 - Interpretation triaxial test - CU
Link NOC:Advanced Soil Mechanics Lecture 30 - Interpretation triaxial test - CD
Link NOC:Advanced Soil Mechanics Lecture 31 - Some additional aspects of shear strength
Link NOC:Advanced Soil Mechanics Lecture 32 - Summary of Module 2
Link NOC:Advanced Soil Mechanics Lecture 33 - Stress path and representation
Link NOC:Advanced Soil Mechanics Lecture 34 - Failure line in stress path
Link NOC:Advanced Soil Mechanics Lecture 35 - Stress path-some common cases - I
Link NOC:Advanced Soil Mechanics Lecture 36 - Stress path-some common cases - II
Link NOC:Advanced Soil Mechanics Lecture 37 - Stress path-triaxial test-drained
Link NOC:Advanced Soil Mechanics Lecture 38 - Stress path-triaxial test-undrained
Link NOC:Advanced Soil Mechanics Lecture 39 - Stress path-additional undrained case
Link NOC:Advanced Soil Mechanics Lecture 40 - Stress path-field cases - I
Link NOC:Advanced Soil Mechanics Lecture 41 - Stress path-field cases - II
Link NOC:Advanced Soil Mechanics Lecture 42 - Stress path problems
Link NOC:Advanced Soil Mechanics Lecture 43 - Summary of Module 3
Link NOC:Advanced Soil Mechanics Lecture 44 - Introduction-critical state soil mechanics
Link NOC:Advanced Soil Mechanics Lecture 45 - Introduction-critical state soil mechanics
Link NOC:Advanced Soil Mechanics Lecture 46 - CSSM-2 D representation
Link NOC:Advanced Soil Mechanics Lecture 47 - Peak state
Link NOC:Advanced Soil Mechanics Lecture 48 - Soil yielding
Link NOC:Advanced Soil Mechanics Lecture 49 - Cam clay
Link NOC:Advanced Soil Mechanics Lecture 50 - Modified Cam clay
Link NOC:Advanced Soil Mechanics Lecture 51 - Prediction of soil behavior from MCCM
Link NOC:Advanced Soil Mechanics Lecture 52 - Prediction of soil behavior from MCCM
Link NOC:Advanced Soil Mechanics Lecture 53 - Strain from MCCM
Link NOC:Advanced Soil Mechanics Lecture 54 - State boundary surface
Link NOC:Advanced Soil Mechanics Lecture 55 - CSSM problems
Link NOC:Advanced Soil Mechanics Lecture 56 - Summary of Module 4
Link NOC:Advanced Soil Mechanics Lecture 57 - Closure of Advanced Soil Mechanics Course
Link NOC:Plates and Shells Lecture 1 - Introduction, classification of plates and some useful relations
Link NOC:Plates and Shells Lecture 2 - Theory of thin plate bending
Link NOC:Plates and Shells Lecture 3 - Plate equations and boundary conditions with examples
Link NOC:Plates and Shells Lecture 4 - Exercises on the plate bending theory
Link NOC:Plates and Shells Lecture 5 - Simply supported plate subjected to distributed loading
Link NOC:Plates and Shells Lecture 6 - Simply supported plate subjected to concentrated load and couple
Link NOC:Plates and Shells Lecture 7 - Simply supported plate resting on elastic foundation and other examples
Link NOC:Plates and Shells Lecture 8 - General formulation for rectangular plate with two opposite edges simply supported
Link NOC:Plates and Shells Lecture 9 - Levy's solution for different loading and boundary conditions
Link NOC:Plates and Shells Lecture 10 - Rectangular plate with Levy's boundary condition subjected to edge moment
Link NOC:Plates and Shells Lecture 11 - Transformation of plate equation from rectangular co-ordinates to polar co-ordinates
Link NOC:Plates and Shells Lecture 12 - Axi-symmetrical bending of circular plate under pure moment and uniformly distributed load
Link NOC:Plates and Shells Lecture 13 - Examples in axisymmetrical bending of solid and annular plate
Link NOC:Plates and Shells Lecture 14 - Variational principle in plate problem
Link NOC:Plates and Shells Lecture 15 - Applications of Rayleigh-Ritz and Gallerkin's method
Link NOC:Plates and Shells Lecture 16 - Finite difference method in plate bending
Link NOC:Plates and Shells Lecture 17 - Plate subjected to inplane forces and transverse load
Link NOC:Plates and Shells Lecture 18 - Buckling load of rectangular plate plate with Navier's boundary condition
Link NOC:Plates and Shells Lecture 19 - Buckling load of rectangular with Levy's boundary condition
Link NOC:Plates and Shells Lecture 20 - Rayleigh-Ritz and Gallerkin method in buckling of plate
Link NOC:Plates and Shells Lecture 21 - Finite difference method in buckling of plate
Link NOC:Plates and Shells Lecture 22 - Introduction to shell structure and behavior of stretched membrane
Link NOC:Plates and Shells Lecture 23 - Classification of shell structure
Link NOC:Plates and Shells Lecture 24 - Stress resultants and couples in shells
Link NOC:Plates and Shells Lecture 25 - Membrane analysis of shells of surface of revolution
Link NOC:Plates and Shells Lecture 26 - Analysis of Spherical dome
Link NOC:Plates and Shells Lecture 27 - Some examples of axi-symmetrical cases in surface of revolution
Link NOC:Plates and Shells Lecture 28 - Membrane theory in pressure vessels
Link NOC:Plates and Shells Lecture 29 - Membrane theory in pressure vessel in the form a Torus and in a tank of arbitrary meridian
Link NOC:Plates and Shells Lecture 30 - Membrane theory of hyperboloid of revolution: Application to cooling tower
Link NOC:Plates and Shells Lecture 31 - Differential Equations of Equilibrium in Cylindrical shell using membrane hypothesis
Link NOC:Plates and Shells Lecture 32 - Membrane Analysis of Cylindrical Shell roof subjected to self weight and snow load
Link NOC:Plates and Shells Lecture 33 - Circular Cylindrical Shell for Fourier Loading in a membrane state of stress
Link NOC:Plates and Shells Lecture 34 - Simplified Bending Theory of Cylindrical Shell-Beam and Arch theories
Link NOC:Plates and Shells Lecture 35 - General bending theory of cylindrical shell
Link NOC:Plates and Shells Lecture 36 - Some applications of symmetrical bending of circular cylindrical shell
Link NOC:Optimization methods for Civil engineering Lecture 1 - Introduction to Optimization
Link NOC:Optimization methods for Civil engineering Lecture 2 - Classical Optimization
Link NOC:Optimization methods for Civil engineering Lecture 3 - Introduction to Linear Problem
Link NOC:Optimization methods for Civil engineering Lecture 4 - General system of equations
Link NOC:Optimization methods for Civil engineering Lecture 5 - Simplex Method
Link NOC:Optimization methods for Civil engineering Lecture 6 - Solution of Linear Problem using Excel Solver
Link NOC:Optimization methods for Civil engineering Lecture 7 - Bracketing Method
Link NOC:Optimization methods for Civil engineering Lecture 8 - Region Elimination Methods
Link NOC:Optimization methods for Civil engineering Lecture 9 - Gradient Based Method and Examples
Link NOC:Optimization methods for Civil engineering Lecture 10 - Convex Function
Link NOC:Optimization methods for Civil engineering Lecture 11 - Line Search Methods for Multi-Variable Problems
Link NOC:Optimization methods for Civil engineering Lecture 12 - Quadratic Approximation Method
Link NOC:Optimization methods for Civil engineering Lecture 13 - Constrained Optimization I: Equality constraints
Link NOC:Optimization methods for Civil engineering Lecture 14 - Constrained Optimization II: Inequality constraints
Link NOC:Optimization methods for Civil engineering Lecture 15 - Constrained Optimization III: Penalty function methods
Link NOC:Optimization methods for Civil engineering Lecture 16 - Introduction to Metaheuristic Optimization
Link NOC:Optimization methods for Civil engineering Lecture 17 - Genetic Algorithms - Part I
Link NOC:Optimization methods for Civil engineering Lecture 18 - Genetic Algorithms - Part II
Link NOC:Optimization methods for Civil engineering Lecture 19 - Genetic Algorithms - Part III
Link NOC:Optimization methods for Civil engineering Lecture 20 - Real Coded Genetic Algorithms
Link NOC:Optimization methods for Civil engineering Lecture 21 - Multi-modal optimization
Link NOC:Optimization methods for Civil engineering Lecture 22 - Introductioin to R
Link NOC:Optimization methods for Civil engineering Lecture 23 - GA using R (Unconstrained problem)
Link NOC:Optimization methods for Civil engineering Lecture 24 - GA using R (Constrained problem)
Link NOC:Optimization methods for Civil engineering Lecture 25 - Constraint Handling in GAs
Link NOC:Optimization methods for Civil engineering Lecture 26 - Evolution Strategies (ESs)
Link NOC:Optimization methods for Civil engineering Lecture 27 - Particle swarm optimization
Link NOC:Optimization methods for Civil engineering Lecture 28 - Introductioin to R - Part II
Link NOC:Optimization methods for Civil engineering Lecture 29 - Multi-objective Genetic Algorithms
Link NOC:Optimization methods for Civil engineering Lecture 30 - Introduction to Differential Evolution
Link NOC:Optimization methods for Civil engineering Lecture 31 - Introduction to Matlab
Link NOC:Optimization methods for Civil engineering Lecture 32 - Optimization using Matlab (Classical methods)
Link NOC:Optimization methods for Civil engineering Lecture 33 - A tutorial on Differential Evolution
Link NOC:Optimization methods for Civil engineering Lecture 34 - NSGA II Using R
Link NOC:Optimization methods for Civil engineering Lecture 35 - Optimization using MATLAB
Link NOC:Optimization methods for Civil engineering Lecture 36 - Optimization using Excel Solver
Link NOC:Optimization methods for Civil engineering Lecture 37 - Multi-objective Genetic Algorithms using MATLAB
Link NOC:Optimization methods for Civil engineering Lecture 38 - Solution of a Design Problem Using MATLAB
Link NOC:Engineering Hydrology Lecture 1 - Course Contents
Link NOC:Engineering Hydrology Lecture 2 - Preliminary Concepts
Link NOC:Engineering Hydrology Lecture 3 - Introduction to Reynolds Transport Theorem
Link NOC:Engineering Hydrology Lecture 4 - Derivation of Reynolds Transport Theorem - Part I
Link NOC:Engineering Hydrology Lecture 5 - Derivation of Reynolds Transport Theorem - Part II
Link NOC:Engineering Hydrology Lecture 6 - Conservations Laws
Link NOC:Engineering Hydrology Lecture 7 - Numerical Examples
Link NOC:Engineering Hydrology Lecture 8 - Summary of Module - I
Link NOC:Engineering Hydrology Lecture 9 - Atmospheric Water
Link NOC:Engineering Hydrology Lecture 10 - Water Vapor Dynamics
Link NOC:Engineering Hydrology Lecture 11 - Precipitable Water in the Static Atmospheric Column
Link NOC:Engineering Hydrology Lecture 12 - Numerical Examples on Basic Atmospheric Parameters
Link NOC:Engineering Hydrology Lecture 13 - Precipitation-Types and Formation
Link NOC:Engineering Hydrology Lecture 14 - Terminal Velocity
Link NOC:Engineering Hydrology Lecture 15 - Thunderstorm Cell Model
Link NOC:Engineering Hydrology Lecture 16 - Numerical Examples on Terminal Velocity and Thunderstorm Cell
Link NOC:Engineering Hydrology Lecture 17 - Forms of Precipitation
Link NOC:Engineering Hydrology Lecture 18 - Measurement of rainfall
Link NOC:Engineering Hydrology Lecture 19 - Raingauge Network
Link NOC:Engineering Hydrology Lecture 20 - Presentation of Rainfall Data
Link NOC:Engineering Hydrology Lecture 21 - Analysis of Rainfall Data
Link NOC:Engineering Hydrology Lecture 22 - Average Areal Rainfall
Link NOC:Engineering Hydrology Lecture 23 - Evaporation
Link NOC:Engineering Hydrology Lecture 24 - Evaporation-Energy Balance Method
Link NOC:Engineering Hydrology Lecture 25 - Evaporation-Aerodynamic Method
Link NOC:Engineering Hydrology Lecture 26 - Evaporation-Combined Method
Link NOC:Engineering Hydrology Lecture 27 - Numerical Examples on Evaporation
Link NOC:Engineering Hydrology Lecture 28 - Evaporation-Empirical method
Link NOC:Engineering Hydrology Lecture 29 - Evapotranspiration
Link NOC:Engineering Hydrology Lecture 30 - Evapotranspiration-Numerical Example
Link NOC:Engineering Hydrology Lecture 31 - Summary of Module - II
Link NOC:Engineering Hydrology Lecture 32 - Subsurface Water
Link NOC:Engineering Hydrology Lecture 33 - 1-D Unsteady Unsaturated Flow Equation
Link NOC:Engineering Hydrology Lecture 34 - Infiltration
Link NOC:Engineering Hydrology Lecture 35 - Measurement of Infiltration
Link NOC:Engineering Hydrology Lecture 36 - Estimation of Infiltration-Empirical Equations
Link NOC:Engineering Hydrology Lecture 37 - Numerical examples - Infiltration estimation using empirical equations
Link NOC:Engineering Hydrology Lecture 38 - Estimation of Infiltration-Theoretical Equation
Link NOC:Engineering Hydrology Lecture 39 - Infiltration-Green Ampt Equation
Link NOC:Engineering Hydrology Lecture 40 - Ponding time
Link NOC:Engineering Hydrology Lecture 41 - Numerical Examples on Green Ampt Infiltration Equation
Link NOC:Engineering Hydrology Lecture 42 - Summary of Module - III
Link NOC:Engineering Hydrology Lecture 43 - Surface Water
Link NOC:Engineering Hydrology Lecture 44 - Excess Rainfall and Direct Runoff
Link NOC:Engineering Hydrology Lecture 45 - Numerical Examples on Direct Runoff
Link NOC:Engineering Hydrology Lecture 46 - Overland flow
Link NOC:Engineering Hydrology Lecture 47 - Streamflow Measurement - I
Link NOC:Engineering Hydrology Lecture 48 - Streamflow Measurement - II
Link NOC:Engineering Hydrology Lecture 49 - Representation of Streamflow
Link NOC:Engineering Hydrology Lecture 50 - Numerical Examples on Streamflow Measurement
Link NOC:Engineering Hydrology Lecture 51 - Summary of Module - IV
Link NOC:Engineering Hydrology Lecture 52 - Hydrologic Analysis - Introduction
Link NOC:Engineering Hydrology Lecture 53 - Linear System Theory
Link NOC:Engineering Hydrology Lecture 54 - Hydrograph Analysis-UH
Link NOC:Engineering Hydrology Lecture 55 - Hydrograph Analysis-DRH
Link NOC:Engineering Hydrology Lecture 56 - Numerical examples on UH and DRH
Link NOC:Engineering Hydrology Lecture 57 - S-Hydrograph
Link NOC:Engineering Hydrology Lecture 58 - Unit Hydrograph of Different Duration
Link NOC:Engineering Hydrology Lecture 59 - Numerical examples UH of Different Duration
Link NOC:Engineering Hydrology Lecture 60 - Instantaneous Unit Hydrograph
Link NOC:Engineering Hydrology Lecture 61 - Instantaneous Unit Hydrograph-Nash's Model
Link NOC:Engineering Hydrology Lecture 62 - Numerical Examples on IUH
Link NOC:Engineering Hydrology Lecture 63 - Synthetic Unit Hydrograph
Link NOC:Engineering Hydrology Lecture 64 - SCS-Synthetic Unit Hydrograph
Link NOC:Engineering Hydrology Lecture 65 - Numerical Examples on SUH
Link NOC:Engineering Hydrology Lecture 66 - Hydrograph Routing
Link NOC:Engineering Hydrology Lecture 67 - Reservoir Routing
Link NOC:Engineering Hydrology Lecture 68 - Numerical Example on Reservoir Routing
Link NOC:Engineering Hydrology Lecture 69 - Hydrologic Channel Routing
Link NOC:Engineering Hydrology Lecture 70 - Numerical Examples on Channel Routing
Link NOC:Engineering Hydrology Lecture 71 - Summary of Module - V
Link NOC:Engineering Hydrology Lecture 72 - Hydrologic Statistics-Preliminary Concepts
Link NOC:Engineering Hydrology Lecture 73 - Probability Distribution and Basic Descriptive Statistics
Link NOC:Engineering Hydrology Lecture 74 - Probabiity Distributions
Link NOC:Engineering Hydrology Lecture 75 - Frequency Analysis
Link NOC:Engineering Hydrology Lecture 76 - Exreme Value Analysis
Link NOC:Engineering Hydrology Lecture 77 - Summary of Module - VI
Link NOC:Engineering Hydrology Lecture 78 - Hydrologic Design
Link NOC:Engineering Hydrology Lecture 79 - Numerical examples on probability and risk
Link NOC:Engineering Hydrology Lecture 80 - Design Storm
Link NOC:Engineering Hydrology Lecture 81 - Design Flood
Link NOC:Engineering Hydrology Lecture 82 - Summary of Module - VII
Link NOC:Engineering Hydrology Lecture 83 - Closure of Engineering Hydrology
Link NOC:Expansive Soil Lecture 1 - Formation of soil
Link NOC:Expansive Soil Lecture 2 - Index properties and classification of soil
Link NOC:Expansive Soil Lecture 3 - Engineering properties of soil - I
Link NOC:Expansive Soil Lecture 4 - Engineering properties of soil - II
Link NOC:Expansive Soil Lecture 5 - Clay mineralogy
Link NOC:Expansive Soil Lecture 6 - Properties of clay particles
Link NOC:Expansive Soil Lecture 7 - Defination, type and behaviour
Link NOC:Expansive Soil Lecture 8 - Mechanism of soil-water interaction
Link NOC:Expansive Soil Lecture 9 - Swelling of expansive soil
Link NOC:Expansive Soil Lecture 10 - Factors controlling DDL thickness
Link NOC:Expansive Soil Lecture 11 - Determination of swelling properties
Link NOC:Expansive Soil Lecture 12 - Classification and prediction
Link NOC:Expansive Soil Lecture 13 - Factors controlling swelling of soil
Link NOC:Expansive Soil Lecture 14 - Shrinkage behaviour of soil
Link NOC:Expansive Soil Lecture 15 - Factors controlling shrinkage behavior of soils
Link NOC:Expansive Soil Lecture 16 - Measurement of various shrinkage characteristics of soil
Link NOC:Expansive Soil Lecture 17 - Cyclic Swelling-Shrinkage Behaviour of Soil
Link NOC:Expansive Soil Lecture 18 - Thermo-Mechanical-Hydraulic-Chemical Behaviour - I
Link NOC:Expansive Soil Lecture 19 - Thermo-Mechanical-Hydraulic-Chemical Behaviour - II
Link NOC:Expansive Soil Lecture 20 - Thermo-Mechanical-Hydraulic-Chemical Behaviour - III
Link NOC:Expansive Soil Lecture 21 - Mechanical Methods
Link NOC:Expansive Soil Lecture 22 - Hydraulic methods
Link NOC:Expansive Soil Lecture 23 - Chemical methods - 1
Link NOC:Expansive Soil Lecture 24 - Chemical methods - 2
Link NOC:Expansive Soil Lecture 25 - By inclusion or confinement
Link NOC:Expansive Soil Lecture 26 - Foundation on expansive soil
Link NOC:Expansive Soil Lecture 27 - Use of expansive soil for various geotechnical engineering applications
Link NOC:Expansive Soil Lecture 28 - Closure lecture
Link NOC:Vibration of Continuous Systems Lecture 1 - General Introduction and Modelling of Dynamic Systems
Link NOC:Vibration of Continuous Systems Lecture 2 - Time Domain Analysis of Linear System - Harmonic input
Link NOC:Vibration of Continuous Systems Lecture 3 - Time Domain Analysis of Linear System - Arbitrary Input
Link NOC:Vibration of Continuous Systems Lecture 4 - Transformed technique in vibration of linear system
Link NOC:Vibration of Continuous Systems Lecture 5 - Formulation of problem: Equilibrium Approach
Link NOC:Vibration of Continuous Systems Lecture 6 - Formulation of problem by Energy Principle
Link NOC:Vibration of Continuous Systems Lecture 7 - Hamilton's principles for formulating vibration problems
Link NOC:Vibration of Continuous Systems Lecture 8 - Lagrange's equation for formulating vibration problems
Link NOC:Vibration of Continuous Systems Lecture 9 - One Dimensional Wave Equation
Link NOC:Vibration of Continuous Systems Lecture 10 - D-Alembert's Solution of the Wave Equation
Link NOC:Vibration of Continuous Systems Lecture 11 - Transverse Vibration of String
Link NOC:Vibration of Continuous Systems Lecture 12 - Forced Transverse Vibration of String
Link NOC:Vibration of Continuous Systems Lecture 13 - Axial Vibration of Bar
Link NOC:Vibration of Continuous Systems Lecture 14 - Torsional Vibration of Bar
Link NOC:Vibration of Continuous Systems Lecture 15 - Some typical problems in axial and torsional vibrations
Link NOC:Vibration of Continuous Systems Lecture 16 - Transverse vibration of beams
Link NOC:Vibration of Continuous Systems Lecture 17 - Natural frequencies and mode shapes of beams with various end conditions
Link NOC:Vibration of Continuous Systems Lecture 18 - Free damped transverse vibration analysis of beam
Link NOC:Vibration of Continuous Systems Lecture 19 - Forced damped vibration analysis of Euler Bernoulli beam
Link NOC:Vibration of Continuous Systems Lecture 20 - Vibration of beams subjected to moving load
Link NOC:Vibration of Continuous Systems Lecture 21 - Some special topics on the transverse vibration of beam
Link NOC:Vibration of Continuous Systems Lecture 22 - Combination of continuous and lumped parameter system
Link NOC:Vibration of Continuous Systems Lecture 23 - State space solutions in vibration problems
Link NOC:Vibration of Continuous Systems Lecture 24 - Beam with moving oscillator, pulstating force and rolling mass
Link NOC:Vibration of Continuous Systems Lecture 25 - Vibration of membrane
Link NOC:Vibration of Continuous Systems Lecture 26 - Vibration of Circular membrane
Link NOC:Vibration of Continuous Systems Lecture 27 - Vibration of Rectangular plate
Link NOC:Vibration of Continuous Systems Lecture 28 - Free vibration of rectangular plates
Link NOC:Vibration of Continuous Systems Lecture 29 - Forced vibration of rectangular plates
Link NOC:Vibration of Continuous Systems Lecture 30 - Approximate method for vibration analysis
Link NOC:Vibration of Continuous Systems Lecture 31 - Rayleigh-Ritz method for vibration analysis
Link NOC:Vibration of Continuous Systems Lecture 32 - Gallerkin's method and Finite difference method
Link NOC:Vibration of Continuous Systems Lecture 33 - System subjected to support excitation
Link NOC:Vibration of Continuous Systems Lecture 34 - Response of continuous systems to transient excitations
Link NOC:Vibration of Continuous Systems Lecture 35 - Shock spectrum due to half sine pulse
Link NOC:Vibration of Continuous Systems Lecture 36 - Numerical Evaluation of Duhamel Integral
Link NOC:Vibration of Continuous Systems Lecture 37 - Direct Integration Methods
Link NOC:Vibration of Continuous Systems Lecture 38 - Spectral Analysis of structures for earthquake excitation
Link NOC:Reliability-Based Structural Design Lecture 1 - Introduction
Link NOC:Reliability-Based Structural Design Lecture 2 - Random Variable
Link NOC:Reliability-Based Structural Design Lecture 3 - Functions of Random Variables
Link NOC:Reliability-Based Structural Design Lecture 4 - Joint Distributions
Link NOC:Reliability-Based Structural Design Lecture 5 - Mt. Gen. Func. and CLT
Link NOC:Reliability-Based Structural Design Lecture 6 - Theory of Estimation
Link NOC:Reliability-Based Structural Design Lecture 7 - Goodness of Fit
Link NOC:Reliability-Based Structural Design Lecture 8 - MVFOSM
Link NOC:Reliability-Based Structural Design Lecture 9 - MVFOSM (Continued...)
Link NOC:Reliability-Based Structural Design Lecture 10 - Hasofer-Lind Rel. Index
Link NOC:Reliability-Based Structural Design Lecture 11 - Rackwitz's Algorithm (Continued...)
Link NOC:Reliability-Based Structural Design Lecture 12 - HL-RF for Non-Normal Problems
Link NOC:Reliability-Based Structural Design Lecture 13 - HL-RF for Correlated Problems
Link NOC:Reliability-Based Structural Design Lecture 14 - FORM using MATLAB
Link NOC:Reliability-Based Structural Design Lecture 15 - FORM using MATLAB (Continued...)
Link NOC:Reliability-Based Structural Design Lecture 16 - FORM Using FEM
Link NOC:Reliability-Based Structural Design Lecture 17 - Morgenstern Model
Link NOC:Reliability-Based Structural Design Lecture 18 - Nataf Model
Link NOC:Reliability-Based Structural Design Lecture 19 - Rosenblatt Transformation
Link NOC:Reliability-Based Structural Design Lecture 20 - Brietung's Model
Link NOC:Reliability-Based Structural Design Lecture 21 - Tvedt's Model
Link NOC:Reliability-Based Structural Design Lecture 22 - Monte-Carlo Simulation
Link NOC:Reliability-Based Structural Design Lecture 23 - Importance Sampling
Link NOC:Reliability-Based Structural Design Lecture 24 - Least Square Curve Fitting
Link NOC:Reliability-Based Structural Design Lecture 25 - Orthogonal Polinomials
Link NOC:Reliability-Based Structural Design Lecture 26 - RSM
Link NOC:Reliability-Based Structural Design Lecture 27 - Stochastic Response Surface Method
Link NOC:Reliability-Based Structural Design Lecture 28 - Moving Least Square Method
Link NOC:Reliability-Based Structural Design Lecture 29 - Adaptive-SRSM
Link NOC:Reliability-Based Structural Design Lecture 30 - Partial Safety Factors
Link NOC:Reliability-Based Structural Design Lecture 31 - Optimal Partial Safety Factors
Link NOC:Reliability-Based Structural Design Lecture 32 - FORM - Revisited
Link NOC:Reliability-Based Structural Design Lecture 33 - Subset Simulation
Link NOC:Reliability-Based Structural Design Lecture 34 - Applications
Link NOC:Reliability-Based Structural Design Lecture 35 - Applications (Continued...)
Link NOC:Reliability-Based Structural Design Lecture 36 - Introduction to Stochastic FEM
Link Advanced Hydrology Lecture 1
Link Advanced Hydrology Lecture 2
Link Advanced Hydrology Lecture 3
Link Advanced Hydrology Lecture 4
Link Advanced Hydrology Lecture 5
Link Advanced Hydrology Lecture 6
Link Advanced Hydrology Lecture 7
Link Advanced Hydrology Lecture 8
Link Advanced Hydrology Lecture 9
Link Advanced Hydrology Lecture 10
Link Advanced Hydrology Lecture 11
Link Advanced Hydrology Lecture 12
Link Advanced Hydrology Lecture 13
Link Advanced Hydrology Lecture 14
Link Advanced Hydrology Lecture 15
Link Advanced Hydrology Lecture 16
Link Advanced Hydrology Lecture 17
Link Advanced Hydrology Lecture 18
Link Advanced Hydrology Lecture 19
Link Advanced Hydrology Lecture 20
Link Advanced Hydrology Lecture 21
Link Advanced Hydrology Lecture 22
Link Advanced Hydrology Lecture 23
Link Advanced Hydrology Lecture 24
Link Advanced Hydrology Lecture 25
Link Advanced Hydrology Lecture 26
Link Advanced Hydrology Lecture 27
Link Advanced Hydrology Lecture 28
Link Advanced Hydrology Lecture 29
Link Advanced Hydrology Lecture 30
Link Advanced Hydrology Lecture 31
Link Advanced Hydrology Lecture 32
Link Advanced Hydrology Lecture 33
Link Advanced Hydrology Lecture 34
Link Advanced Hydrology Lecture 35
Link Advanced Hydrology Lecture 36
Link Advanced Hydrology Lecture 37
Link Advanced Hydrology Lecture 38
Link Advanced Hydrology Lecture 39
Link Advanced Hydrology Lecture 40
Link Advanced Hydrology Lecture 41
Link Advanced Hydrology Lecture 42
Link Advanced Hydrology Lecture 43
Link Advanced Hydrology Lecture 44
Link Concrete Engineering and Technology Lecture 1 - Introduction and course overview
Link Concrete Engineering and Technology Lecture 2 - Constituents of concrete - Part 1 of 2
Link Concrete Engineering and Technology Lecture 3 - Constituents of concrete - Part 2 of 2
Link Concrete Engineering and Technology Lecture 4 - Admixtures in concrete – mineral and chemical
Link Concrete Engineering and Technology Lecture 5 - Hydration of cement
Link Concrete Engineering and Technology Lecture 6 - Basic properties of concrete
Link Concrete Engineering and Technology Lecture 7 - Proportioning of concrete mixes - Part 1 of 3
Link Concrete Engineering and Technology Lecture 8 - Proportioning of concrete mixes - Part 2 of 3
Link Concrete Engineering and Technology Lecture 9 - Proportioning of concrete mixes - Part 3 of 3
Link Concrete Engineering and Technology Lecture 10 - Pores and porosity in concrete
Link Concrete Engineering and Technology Lecture 11 - Porosimetry – measuring pores in concrete
Link Concrete Engineering and Technology Lecture 12 - Principles of quality control in concrete construction
Link Concrete Engineering and Technology Lecture 13 - Quality control and acceptance criteria for concrete based on compressive strength
Link Concrete Engineering and Technology Lecture 14 - Fibre reinforced concrete
Link Concrete Engineering and Technology Lecture 15 - High strength concrete
Link Concrete Engineering and Technology Lecture 16 - Mass concrete - Part 1 of 2
Link Concrete Engineering and Technology Lecture 17 - Mass concrete - Part 2 of 2
Link Concrete Engineering and Technology Lecture 18 - Concreting in cold weather
Link Concrete Engineering and Technology Lecture 19 - Concreting in hot weather
Link Concrete Engineering and Technology Lecture 20 - Roller compacted concrete
Link Concrete Engineering and Technology Lecture 21 - Self-compacting concrete
Link Concrete Engineering and Technology Lecture 22 - Testing self-compacting concrete
Link Concrete Engineering and Technology Lecture 23 - Shotcrete and underwater concrete
Link Concrete Engineering and Technology Lecture 24 - Alkali – aggregate reaction - Part 1 of 2
Link Concrete Engineering and Technology Lecture 25 - Alkali – aggregate reaction - Part 2 of 2
Link Concrete Engineering and Technology Lecture 26 - Reinforcement corrosion in concrete
Link Concrete Engineering and Technology Lecture 27 - Chloride penetration in concrete
Link Concrete Engineering and Technology Lecture 28 - Using epoxy-coated bars in concrete structures
Link Concrete Engineering and Technology Lecture 29 - Using FRP as reinforcement in concrete structures - Part 1 of 2
Link Concrete Engineering and Technology Lecture 30 - Using FRP as reinforcement in concrete structures - Part 2 of 2
Link Concrete Engineering and Technology Lecture 31 - Grouting and importance of formwork in concrete construction
Link Concrete Engineering and Technology Lecture 32 - Carbonation and freezing & thawing in concrete structures
Link Concrete Engineering and Technology Lecture 33 - Using recycled aggregates in concrete construction
Link Concrete Engineering and Technology Lecture 34 - Basic non-destructive testing for concrete structures
Link Concrete Engineering and Technology Lecture 35 - Measuring permeability in concrete
Link Concrete Engineering and Technology Lecture 36 - Some additional topics
Link Concrete Engineering and Technology Lecture 37 - Considerations in repair of concrete structures - Part 1 of 2
Link Concrete Engineering and Technology Lecture 38 - Considerations in repair of concrete structures - Part 2 of 2
Link Concrete Engineering and Technology Lecture 39 - Laboratory demonstration
Link Concrete Engineering and Technology Lecture 40 - Review of the course
Link Environmental Air Pollution Lecture 1 - Introduction to Atmosphere
Link Environmental Air Pollution Lecture 2 - Air Pollution Systems
Link Environmental Air Pollution Lecture 3 - Air Quality Standards
Link Environmental Air Pollution Lecture 4 - Types and Forms of Air Pollutants
Link Environmental Air Pollution Lecture 5 - Measurement Units and Particulate classification
Link Environmental Air Pollution Lecture 6 - Interpretation and Particle size Distribution
Link Environmental Air Pollution Lecture 7 - Atmospheric formation of Air Pollutants - I
Link Environmental Air Pollution Lecture 8 - Atmospheric formation of Air Pollutants - II
Link Environmental Air Pollution Lecture 9 - Atmospheric formation of Air Pollutants - III
Link Environmental Air Pollution Lecture 10 - Kinetics of Air pollution and combustion processes
Link Environmental Air Pollution Lecture 11 - Internal Combustion Engine and Air Pollution - I
Link Environmental Air Pollution Lecture 12 - Internal Combustion Engine and Air Pollution - II
Link Environmental Air Pollution Lecture 13 - Air Pollution and Health - I
Link Environmental Air Pollution Lecture 14 - Air Pollution and Health - II
Link Environmental Air Pollution Lecture 15 - Emission Inventory
Link Environmental Air Pollution Lecture 16 - Sources of Air Pollution
Link Environmental Air Pollution Lecture 17 - Emission from Fugitive Sources and Sulfuric Acid Production
Link Environmental Air Pollution Lecture 18 - Aluminium Production and Air Pollution - I
Link Environmental Air Pollution Lecture 19 - Aluminium Production and Air Pollution - II
Link Environmental Air Pollution Lecture 20 - Coke Production and Air Pollution
Link Environmental Air Pollution Lecture 21 - Examples for Practice
Link Environmental Air Pollution Lecture 22 - Meteorological Measurements and their interpretation
Link Environmental Air Pollution Lecture 23 - Examples for Practice - Dispersion Modeling
Link Environmental Air Pollution Lecture 24 - Vertical Temperature Profile of Atmosphere
Link Environmental Air Pollution Lecture 25 - Stability, Mixing Height and Plume Behavior - I
Link Environmental Air Pollution Lecture 26 - Stability, Mixing Height and Plume Behavior - II
Link Environmental Air Pollution Lecture 27 - Examples - Solar Radiation Based Stability Calculation
Link Environmental Air Pollution Lecture 28 - Air Quality Modeling - I
Link Environmental Air Pollution Lecture 29 - Air Quality Modeling - II
Link Environmental Air Pollution Lecture 30 - Derivation of Gaussian Model
Link Environmental Air Pollution Lecture 31 - Gaussian Model - Useful Formulation
Link Environmental Air Pollution Lecture 32 - Plume rise, Area and Line Source Model
Link Environmental Air Pollution Lecture 33 - Air Quality Modeling - Maximum Ground Level concentration
Link Environmental Air Pollution Lecture 34 - Examples of Air Quality Modeling
Link Environmental Air Pollution Lecture 35 - Air Pollution Control Devices - I
Link Environmental Air Pollution Lecture 36 - Air Pollution Control Devices - II
Link Environmental Air Pollution Lecture 37 - Source Emission Monitoring
Link Environmental Air Pollution Lecture 38 - Receptor Source Modeling
Link Environmental Air Pollution Lecture 39 - Environmental laws
Link Surveying Module 1 - Lecture 1
Link Surveying Module 2 - Lecture 1
Link Surveying Module 2 - Lecture 2
Link Surveying Module 2 - Lecture 3
Link Surveying Module 2 - Lecture 4
Link Surveying Module 2 - Lecture 5
Link Surveying Module 3 - Lecture 1
Link Surveying Module 3 - Lecture 2
Link Surveying Module 3 - Lecture 3
Link Surveying Module 3 - Lecture 4
Link Surveying Module 4 - Lecture 1
Link Surveying Module 4 - Lecture 2
Link Surveying Module 5 - Lecture 1
Link Surveying Module 5 - Lecture 2
Link Surveying Module 5 - Lecture 3
Link Surveying Module 5 - Lecture 4
Link Surveying Module 5 - Lecture 5
Link Surveying Module 5 - Lecture 6
Link Surveying Module 6 - Lecture 1
Link Surveying Module 6 - Lecture 2
Link Surveying Module 6 - Lecture 3
Link Surveying Module 7 - Lecture 1
Link Surveying Module 7 - Lecture 2
Link Surveying Module 7 - Lecture 3
Link Surveying Module 7 - Lecture 4
Link Surveying Module 7 - Lecture 5
Link Surveying Module 8 - Lecture 1
Link Surveying Module 8 - Lecture 2
Link Surveying Module 9 - Lecture 1
Link Surveying Module 9 - Lecture 2
Link Surveying Module 9 - Lecture 3
Link Surveying Module 9 - Lecture 4
Link Surveying Module 9 - Lecture 5
Link Surveying Module 10 - Lecture 1
Link Surveying Module 11 - Lecture 1
Link Surveying Module 11 - Lecture 2
Link Surveying Module 11 - Lecture 3
Link Surveying Module 12 - Lecture 1
Link Surveying Module 12 - Lecture 2
Link Surveying Module 12 - Lecture 3
Link Water Resources Engineering Lecture 1
Link Water Resources Engineering Lecture 2
Link Water Resources Engineering Lecture 3
Link Water Resources Engineering Lecture 4
Link Water Resources Engineering Lecture 5
Link Water Resources Engineering Lecture 6
Link Water Resources Engineering Lecture 7
Link Water Resources Engineering Lecture 8
Link Water Resources Engineering Lecture 9
Link Water Resources Engineering Lecture 10
Link Water Resources Engineering Lecture 11
Link Water Resources Engineering Lecture 12
Link Water Resources Engineering Lecture 13
Link Water Resources Engineering Lecture 14
Link Water Resources Engineering Lecture 15
Link Water Resources Engineering Lecture 16
Link Water Resources Engineering Lecture 17
Link Water Resources Engineering Lecture 18
Link Water Resources Engineering Lecture 19
Link Water Resources Engineering Lecture 20
Link Water Resources Engineering Lecture 21
Link Water Resources Engineering Lecture 22
Link Water Resources Engineering Lecture 23
Link Water Resources Engineering Lecture 24
Link Water Resources Engineering Lecture 25 (Missing)
Link Water Resources Engineering Lecture 26
Link Water Resources Engineering Lecture 27
Link Water Resources Engineering Lecture 28
Link Water Resources Engineering Lecture 29
Link Geotechnical Measurements and Explorations Lecture 1 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 2 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 3 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 4 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 5 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 6 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 7 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 8 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 9 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 10 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 11 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 12 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 13 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 14 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 15 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 16 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 17 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 18 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 19 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 20 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 21 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 22 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 23 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 24 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 25 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 26 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 27 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 28 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 29 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 30 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 31 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 32 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 33 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 34 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 35 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 36 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 37 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 38 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 39 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 40 - Geotechnical Measurements & Explorations
Link Application of Soil Mechanics Lecture 1 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 2 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 3 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 4 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 5 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 6 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 7 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 8 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 9 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 10 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 11 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 12 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 13 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 14 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 15 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 16 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 17 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 18 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 19 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 20 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 21 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 22 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 23 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 24 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 25 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 26 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 27 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 28 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 29 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 30 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 31 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 32 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 33 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 34 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 35 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 36 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 37 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 38 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 39 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 40 - Application of Soil Mechanics
Link NOC:Geology and Soil Mechanics Lecture 1 - Description of soil, Engineering Geology Of Soils and Thier Formation
Link NOC:Geology and Soil Mechanics Lecture 2 - Index Properties Of Soil
Link NOC:Geology and Soil Mechanics Lecture 3 - Index Properties Of Soil - A
Link NOC:Geology and Soil Mechanics Lecture 4 - Index Properties Of Soil - B
Link NOC:Geology and Soil Mechanics Lecture 5 - Index Properties Of Soil - C
Link NOC:Geology and Soil Mechanics Lecture 6 - Index Properties Of soil - D
Link NOC:Geology and Soil Mechanics Lecture 7 - Classification Of Soils - A
Link NOC:Geology and Soil Mechanics Lecture 8 - Classification Of Soils - B
Link NOC:Geology and Soil Mechanics Lecture 9 - Classification Of Soils And Clay Mineralogy - A
Link NOC:Geology and Soil Mechanics Lecture 10 - Classification Of Soils And Clay Mineralogy - B
Link NOC:Geology and Soil Mechanics Lecture 11 - Soil compaction - A
Link NOC:Geology and Soil Mechanics Lecture 12 - Soil compaction - B
Link NOC:Geology and Soil Mechanics Lecture 13 - Soil compaction - C
Link NOC:Geology and Soil Mechanics Lecture 14 - Soil compaction - D
Link NOC:Geology and Soil Mechanics Lecture 15 - Soil compaction and Permeability
Link NOC:Geology and Soil Mechanics Lecture 16 - Permeability - A
Link NOC:Geology and Soil Mechanics Lecture 17 - Permeability - B
Link NOC:Geology and Soil Mechanics Lecture 18 - Permeability - C
Link NOC:Geology and Soil Mechanics Lecture 19 - Problems on permeability
Link NOC:Geology and Soil Mechanics Lecture 20 - Seepage
Link NOC:Geology and Soil Mechanics Lecture 21 - Seepage - A
Link NOC:Geology and Soil Mechanics Lecture 22 - Seepage - B
Link NOC:Geology and Soil Mechanics Lecture 23 - Seepage and In situ stress
Link NOC:Geology and Soil Mechanics Lecture 24 - In situ stresses - A
Link NOC:Geology and Soil Mechanics Lecture 25 - In situ stresses - B
Link NOC:Geology and Soil Mechanics Lecture 26 - In situ stresses - A
Link NOC:Geology and Soil Mechanics Lecture 27 - In situ stresses - B
Link NOC:Geology and Soil Mechanics Lecture 28 - In situ stresses - C
Link NOC:Geology and Soil Mechanics Lecture 29 - Consolidation - A
Link NOC:Geology and Soil Mechanics Lecture 30 - Consolidation - B
Link NOC:Geology and Soil Mechanics Lecture 31 - Consolidation - A
Link NOC:Geology and Soil Mechanics Lecture 32 - Consolidation - B
Link NOC:Geology and Soil Mechanics Lecture 33 - Consolidation - C
Link NOC:Geology and Soil Mechanics Lecture 34 - Consolidation - D
Link NOC:Geology and Soil Mechanics Lecture 35 - Consolidation - E
Link NOC:Geology and Soil Mechanics Lecture 36 - Consolidation - F
Link NOC:Geology and Soil Mechanics Lecture 37 - Shear strength of Soil - A
Link NOC:Geology and Soil Mechanics Lecture 38 - Shear strength of Soil - B
Link NOC:Geology and Soil Mechanics Lecture 39 - Shear strength of Soil - C
Link NOC:Geology and Soil Mechanics Lecture 40 - Shear Strength of Soils
Link NOC:Geology and Soil Mechanics Lecture 41 - Shear Strength of Soils.
Link NOC:Geology and Soil Mechanics Lecture 42 - Shear Strength of Soils..
Link NOC:Geology and Soil Mechanics Lecture 43 - Shear strength of Soil
Link NOC:Geology and Soil Mechanics Lecture 44 - Shear strength of Soil- e
Link NOC:Geology and Soil Mechanics Lecture 45 - Shear strength of Soil_B
Link NOC:Geology and Soil Mechanics Lecture 46 - Problem on shear strength of soil
Link NOC:Geology and Soil Mechanics Lecture 47 - Problem on shear strength of soil -a
Link NOC:Geology and Soil Mechanics Lecture 48 - Problem on shear strength of soil -a
Link NOC:Geology and Soil Mechanics Lecture 49 - Earth Pressure on retaining wall
Link NOC:Geology and Soil Mechanics Lecture 50 - Earth Pressure on retaining wall -A
Link NOC:Geology and Soil Mechanics Lecture 51 - Tutorial on Index properties of soil
Link NOC:Geology and Soil Mechanics Lecture 52 - Tutorial on compaction
Link NOC:Geology and Soil Mechanics Lecture 53 - Tutorial on Permeability - a
Link NOC:Geology and Soil Mechanics Lecture 54 - Tutorial on Permeability - b
Link NOC:Geology and Soil Mechanics Lecture 55 - Tutorial On Consoildation
Link NOC:Geology and Soil Mechanics Lecture 56 - Tutorial on consoildation - a
Link NOC:Geology and Soil Mechanics Lecture 57 - Tutorial on Sheer Strength
Link NOC:Geology and Soil Mechanics Lecture 58 - Tutorial on Sheer Strength - a
Link NOC:Geology and Soil Mechanics Lecture 59 - Earth Pressure on Retaining Wall - a
Link NOC:Geology and Soil Mechanics Lecture 60 - Earth Pressure on Retaining Wall - 1
Link NOC:Geology and Soil Mechanics Lecture 61 - Earth Pressure Theories and Problems on Earth Pressure on Retaining Wall
Link NOC:Geology and Soil Mechanics Lecture 62 - Problems on Earth Pressure on Retaining Wall Edit Lesson
Link NOC:Geology and Soil Mechanics Lecture 63 - Problems on Earth Pressure on Retaining Wall - 2
Link NOC:Geology and Soil Mechanics Lecture 64 - Problems on Earth Pressure Theories - 3
Link NOC:Geology and Soil Mechanics Lecture 65 - Problems on Earth Pressure Theories - 4
Link NOC:Engineering Graphics Lecture 1 - Course Objectives, Lettering and Numbering
Link NOC:Engineering Graphics Lecture 2 - Geometric Constructions - Part I
Link NOC:Engineering Graphics Lecture 3 - Geometric Constructions - Part II
Link NOC:Engineering Graphics Lecture 4 - Orthographic Projections - Part I
Link NOC:Engineering Graphics Lecture 5 - Orthographic Projections - Part II
Link NOC:Engineering Graphics Lecture 6 - Orthographic Projections - Part III
Link NOC:Engineering Graphics Lecture 7 - Orthographic Projections - Part IV
Link NOC:Engineering Graphics Lecture 8 - Orthographic Projections - Part V
Link NOC:Engineering Graphics Lecture 9 - Isometric Projections - Part I
Link NOC:Engineering Graphics Lecture 10 - Isometric Projections - Part II
Link NOC:Engineering Graphics Lecture 11 - Isometric Projections - Part III
Link NOC:Engineering Graphics Lecture 12 - Isometric Projections - Part IV
Link NOC:Engineering Graphics Lecture 13 - Isometric Projections - Part V and Oblique Projections - Part I
Link NOC:Engineering Graphics Lecture 14 - Oblique Projections - Part II
Link NOC:Engineering Graphics Lecture 15 - Sectioning
Link NOC:Engineering Graphics Lecture 16 - Hatching
Link NOC:Engineering Graphics Lecture 17 - Orthographic Projections - Assemblies
Link NOC:Engineering Graphics Lecture 18 - Missing Lines and Missing Views
Link NOC:Engineering Graphics Lecture 19 - Perspective View - Part I
Link NOC:Engineering Graphics Lecture 20 - Perspective View - Part II
Link NOC:Engineering Graphics Lecture 21 - Perspective View - Part III
Link NOC:Engineering Graphics Lecture 22 - Angular Perspective and Circles in perspective
Link NOC:Engineering Graphics Lecture 23 - Perspective View examples and Space Geometry
Link NOC:Engineering Graphics Lecture 24 - Space Geometry (Continued...)
Link NOC:Engineering Graphics Lecture 25 - True Length, Point View and Slope of Oblique lines
Link NOC:Engineering Graphics Lecture 26 - Space Geometry - Introduction
Link NOC:Engineering Graphics Lecture 27 - Space Geometry - Part 2
Link NOC:Engineering Graphics Lecture 28 - Auxiliary View, Lines, Planes
Link NOC:Engineering Graphics Lecture 29 - Relationship between Lines and Planes, Planes and Planes
Link NOC:Engineering Graphics Lecture 30 - Intersection of Solids
Link NOC:Engineering Graphics Lecture 31 - AUTOCAD
Link NOC:Engineering Graphics Lecture 32 - Development of Surfaces
Link NOC:Earth Sciences for Civil Engineering Lecture 1 - Introduction to Geosciences in Civil Engineering - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 2 - Introduction to Geosciences in Civil Engineering - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 3 - Plate Tectonics and Continental Drift - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 4 - Plate Tectonics and Continental Drift - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 5 - Plate Tectonics and Continental Drift - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 6 - Rock Forming Minerals and their Properties - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 7 - Rock types and their Properties - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 8 - Rock types and their Properties - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 9 - Rock types and their Properties - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 10 - Rock types and their Properties - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 11 - Rock types and their properties - Part 5
Link NOC:Earth Sciences for Civil Engineering Lecture 12 - Rock types and their properties - Part 6
Link NOC:Earth Sciences for Civil Engineering Lecture 13 - Rock types and their properties - Part-6 Seismology and the internal structure of the earth - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 14 - Seismology and the internal structure of the earth - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 15 - Seismology and the internal structure of the earth - Part 3 Edit Lesson
Link NOC:Earth Sciences for Civil Engineering Lecture 16 - Seismology and the internal structure of the earth - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 17 - Seismology and the internal structure of the earth - Part 5 and Geological Structures - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 18 - Geological Structures - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 19 - Geological Structures - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 20 - Geological Structures - Part 4
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 1 - Introduction to Geological Hazards and Enviromental Impact - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 2 - Introduction to Geological Hazards and Enviromental Impact - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 3 - Introduction to Geological Hazards and Enviromental Impact - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 4 - Active Faults and its Related Hazards in India - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 5 - Active Faults and its Related Hazards in India - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 6 - Active faults and its related hazards in India - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 7 - Active faults and its related hazards in India - Part 4
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 8 - Active faults its related hazards in India - Part 5
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 9 - Active faults its related hazards in India - Part 6
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 10 - Active faults its related hazards in India - Part 7 and Civil Engineering applications - geological considerations in dams, tunnels - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 11 - Civil Engineering applications – geological considerations in dams, tunnels - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 12 - Civil Engineering applications – geological considerations in dams, tunnels - Part 3 and Tsunami and related hazard - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 13 - Tsunami and related hazard - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 14 - Tsunami and related hazard - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 15 - Landslide and subsidence - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 16 - Landslide and subsidence - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 17 - Landslide and subsidence - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 18 - Flood and related hazard - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 19 - Flood and related hazard - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 20 - Groundwater
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 1 - Lecture 1 - Introduction to the course
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 2 - Lecture 2 - Concrete - A Three Phase System
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 3 - Lecture 3 - Basic Properties of Concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 4 - Lecture 4 - Portland Cement
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 5 - Lecture 5 - Portland Cement (Continued...)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 6 - Lecture 6 - Introduction (Aggregates) - 1
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 7 - Lecture 7 - Introduction (Aggregates) - 2
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 8 - Lecture 8 - Introduction (Aggregates) - 3
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 9 - Lecture 9 - Introduction (Concrete Mixture Proportioning Strategies)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 10 - Lecture 10 - Introduction (Chemical Admixtures)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 11 - Lecture-11 - Portland Cement Based Paste Systems - I
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 12 - Lecture 12 - Portland Cement Based Paste Systems - II
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 13 - Lecture 13 - Portland Cement Based Paste Systems - III
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 14 - Lecture 14 - Portland Cement Paste Based Systems - IV
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 15 - Lecture 15 - Portland Cement Based Paste Systems - V
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 16 - Lecture 16 - 18 Part 1 - Portland Cement Based Paste Systems - VI
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 17 - Lecture 16 - 18 Part 2 - Portland Cement Based Paste Systems - VII
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 18 - Lecture 19 - Heat of hydration of Portland Cement
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 19 - Lecture 20 - Mass Concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 20 - Lecture 21-22 - Mineral Admixtures - 1
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 21 - Lecture 23-24 - Mineral Admixtures - 2
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 22 - Lecture 25-27 - Mineral Admixtures - 3
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 23 - Lecture 28-30 - Mineral Admixtures - 4
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 24 - Lecture 31 - From paste to concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 25 - Lecture 32 - Demonstration
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 26 - Lecture 33 - Pores and porosity - A revisit
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 27 - Lecture 34 - Measuring permeability of concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 28 - Lecture 35 - Behavior under load
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 29 - Lecture 36 - Curing of concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 30 - Lecture 37 - Stress strain behaviour
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 31 - Lecture 38 - Durability of concrete - I
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 32 - Lecture 39 - Durability of concrete - II - Specifications
Link NOC:Mechanics of Solids Lecture 1 - Course Handout
Link NOC:Mechanics of Solids Lecture 2 - Analysis of Mechanical System
Link NOC:Mechanics of Solids Lecture 3 - Conditions of equilibrium in 2D and 3D
Link NOC:Mechanics of Solids Lecture 4 - FBD with examples on modelling of typical supports and joints
Link NOC:Mechanics of Solids Lecture 5 - Support Conditions
Link NOC:Mechanics of Solids Lecture 6 - FBD of Frame Structures
Link NOC:Mechanics of Solids Lecture 7 - Stability of Truss
Link NOC:Mechanics of Solids Lecture 8 - Solutions of Plane Truss
Link NOC:Mechanics of Solids Lecture 9 - Method of Sections
Link NOC:Mechanics of Solids Lecture 10 - Friction 2
Link NOC:Mechanics of Solids Lecture 11 - Tutorial on Truss
Link NOC:Mechanics of Solids Lecture 12 - Tutorial on Friction
Link NOC:Mechanics of Solids Lecture 13 - Force Displacement Relationship
Link NOC:Mechanics of Solids Lecture 14 - Hoop Stresses
Link NOC:Mechanics of Solids Lecture 15 - Mechanism of belt around wheel
Link NOC:Mechanics of Solids Lecture 16 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 1
Link NOC:Mechanics of Solids Lecture 17 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 2
Link NOC:Mechanics of Solids Lecture 18 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 3
Link NOC:Mechanics of Solids Lecture 19 - Concept of Stress
Link NOC:Mechanics of Solids Lecture 20 - Plane Stress
Link NOC:Mechanics of Solids Lecture 21 - State of Stresses
Link NOC:Mechanics of Solids Lecture 22 - Mohrs Circle representation of plane stress
Link NOC:Mechanics of Solids Lecture 23 - Construction of Mohrs Circle
Link NOC:Mechanics of Solids Lecture 24 - Principal Stresses and Introduction to Concept of Strain
Link NOC:Mechanics of Solids Lecture 25 - Normal Strain and Shear Strain
Link NOC:Mechanics of Solids Lecture 26 - Strain Transformation
Link NOC:Mechanics of Solids Lecture 27 - Strain Measurement
Link NOC:Mechanics of Solids Lecture 28 - Tutorial
Link NOC:Mechanics of Solids Lecture 29 - Tutorial on Concept of Strain.
Link NOC:Mechanics of Solids Lecture 30 - Elastic Stress Strain Relationship
Link NOC:Mechanics of Solids Lecture 31 - Von Mises Yield Criteria
Link NOC:Mechanics of Solids Lecture 32 - Tresca Criteria
Link NOC:Mechanics of Solids Lecture 33 - True Stress Strain
Link NOC:Mechanics of Solids Lecture 34 - Tutorial 2
Link NOC:Mechanics of Solids Lecture 35 - Forces and Moments Transmitted by Slender Members
Link NOC:Mechanics of Solids Lecture 36 - Bending Moment
Link NOC:Mechanics of Solids Lecture 37 - Shear Force and Bending Moment Diagrams
Link NOC:Mechanics of Solids Lecture 38 - Differential Equation Relationship
Link NOC:Mechanics of Solids Lecture 39 - Tutorial 3
Link NOC:Mechanics of Solids Lecture 40 - Tutorial 4
Link NOC:Mechanics of Solids Lecture 41 - Torsion
Link NOC:Mechanics of Solids Lecture 42 - Stress Components
Link NOC:Mechanics of Solids Lecture 43 - Tutorial A
Link NOC:Mechanics of Solids Lecture 44 - Tutorial B
Link NOC:Mechanics of Solids Lecture 45 - Stresses due to Bending
Link NOC:Mechanics of Solids Lecture 46 - Equilibrium Requirements
Link NOC:Mechanics of Solids Lecture 47 - Beam Transmitting both Shear Force and Bending Moment
Link NOC:Mechanics of Solids Lecture 48 - Shear Stress Distribution
Link NOC:Mechanics of Solids Lecture 49 - Distribution of Shear Stress in I Beam
Link NOC:Mechanics of Solids Lecture 50 - Tutorial 1
Link NOC:Mechanics of Solids Lecture 51 - Deflections due to Bending
Link NOC:Mechanics of Solids Lecture 52 - Integration of Moment Curvature Relation
Link NOC:Mechanics of Solids Lecture 53 - Superposition Continued
Link NOC:Mechanics of Solids Lecture 54 - Load Deflection Differential Equation
Link NOC:Mechanics of Solids Lecture 55 - Castigliano’s Theorem
Link NOC:Mechanics of Solids Lecture 56 - Strain Energy Methods
Link NOC:Mechanics of Solids Lecture 57 - Introduction to Concept of Elastic Instability
Link NOC:Mechanics of Solids Lecture 58 - Critical Load
Link NOC:Mechanics of Solids Lecture 59 - Critical Load for Flexible Columns
Link NOC:Mechanics of Solids Lecture 60 - Concluding Lecture
Link NOC:Principles of Construction Management Lecture 1 - Introduction to the course
Link NOC:Principles of Construction Management Lecture 2 - Interdisciplinary nature of modern construction projects
Link NOC:Principles of Construction Management Lecture 3 - Overview of steps in execution of a project
Link NOC:Principles of Construction Management Lecture 4 - Illustrative examples for evaluation of bids based on different schemes
Link NOC:Principles of Construction Management Lecture 5 - Resource management in construction projects
Link NOC:Principles of Construction Management Lecture 6 - Estimating quantities
Link NOC:Principles of Construction Management Lecture 7 - Description of items
Link NOC:Principles of Construction Management Lecture 8 - Estimation of project cost
Link NOC:Principles of Construction Management Lecture 9 - Discussion on the case study of boundary wall
Link NOC:Principles of Construction Management Lecture 10 - Running account bills
Link NOC:Principles of Construction Management Lecture 11 - Economic decision making in construction projects
Link NOC:Principles of Construction Management Lecture 12 - Depreciation of construction equipment
Link NOC:Principles of Construction Management Lecture 13 - Repayment of a loan
Link NOC:Principles of Construction Management Lecture 14 - Introduction to planning and scheduling
Link NOC:Principles of Construction Management Lecture 15 - Introduction to planning and scheduling (Continued...)
Link NOC:Principles of Construction Management Lecture 16 - Project scheduling
Link NOC:Principles of Construction Management Lecture 17 - Uncertainties in duration of activities -Using PERT in scheduling
Link NOC:Principles of Construction Management Lecture 18 - Project monitoring and control systems
Link NOC:Principles of Construction Management Lecture 19 - Resource leveling and allocation
Link NOC:Principles of Construction Management Lecture 20 - Crashing of networks
Link NOC:Principles of Construction Management Lecture 21 - Introduction to construction safety
Link NOC:Principles of Construction Management Lecture 22 - Accidents in construction industry - I
Link NOC:Principles of Construction Management Lecture 23 - Accidents in construction industry - II
Link NOC:Principles of Construction Management Lecture 24 - Personal protective equipment
Link NOC:Principles of Construction Management Lecture 25 - Implications of construction accidents
Link NOC:Principles of Construction Management Lecture 26 - Safety organization and safety officer
Link NOC:Principles of Construction Management Lecture 27 - Quality control in construction
Link NOC:Principles of Construction Management Lecture 28 - Quality in construction - welding
Link NOC:Principles of Construction Management Lecture 29 - Epoxy coated bars
Link NOC:Principles of Construction Management Lecture 30 - Quality control of grouts in ducts of post-tensioned PC members
Link NOC:Principles of Construction Management Lecture 31 - Quality control (QC) issues in concrete
Link NOC:Principles of Construction Management Lecture 32 - Legal issues in Construction Management - An Introduction
Link NOC:Principles of Construction Management Lecture 33 - Essentials of a Good Contract
Link NOC:Principles of Construction Management Lecture 34 - Dispute Resolution in Construction Projects
Link NOC:Principles of Construction Management Lecture 35 - Types of Construction Contracts - Definitions
Link NOC:Principles of Construction Management Lecture 36 - Closing the Discussion on Legal Aspects
Link NOC:Principles of Construction Management Lecture 37 - Quality Control - Concrete Sewer Pipeline
Link NOC:Foundation Design Lecture 1 - (1A) Subsoil Investigation or Site Investigation - Part 1
Link NOC:Foundation Design Lecture 2 - (1B) Subsoil Investigation or Site Investigation - Part 2
Link NOC:Foundation Design Lecture 3 - (2A) Subsoil Investigation or Site Investigation - Part 3
Link NOC:Foundation Design Lecture 4 - (2B) Subsoil Investigation or Site Investigation - Part 4
Link NOC:Foundation Design Lecture 5 - (3A) Subsoil Investigation or Site Investigation - Part 5
Link NOC:Foundation Design Lecture 6 - (3B) Subsoil Investigation or Site Investigation - Part 6
Link NOC:Foundation Design Lecture 7 - (4A) Subsoil Investigation or Site Investigation - Part 7
Link NOC:Foundation Design Lecture 8 - (4B) Foundations
Link NOC:Foundation Design Lecture 9 - (5A) Bearing Capacity Of Shallow Foundations - Part 1
Link NOC:Foundation Design Lecture 10 - (5B) Bearing Capacity Of Shallow Foundations - Part 2
Link NOC:Foundation Design Lecture 11 - (6A) Bearing Capacity Of Shallow Foundations - Part 3
Link NOC:Foundation Design Lecture 12 - (6B) Bearing Capacity Of Shallow Foundations - Part 4
Link NOC:Foundation Design Lecture 13 - (7A) Bearing Capacity Of Shallow Foundations - Part 5
Link NOC:Foundation Design Lecture 14 - (7B) Bearing Capacity Of Shallow Foundations - Part 6
Link NOC:Foundation Design Lecture 15 - (8A) Settlement Analysis - Part 1
Link NOC:Foundation Design Lecture 16 - (8B) Settlement Analysis - Part 2
Link NOC:Foundation Design Lecture 17 - (9A) Settlement Analysis - Part 3
Link NOC:Foundation Design Lecture 18 - (9B) Stress distribution in soils - Part 1
Link NOC:Foundation Design Lecture 19 - (10A) Stress distribution in soils - Part 2
Link NOC:Foundation Design Lecture 20 - (10B) Stress distribution in soils - Part 3
Link NOC:Foundation Design Lecture 21 - (11A) Stress distribution in soils - Part 4
Link NOC:Foundation Design Lecture 22 - (11B) Stress distribution in soils - Part 5
Link NOC:Foundation Design Lecture 23 - (12A) Examples based on bearing capacity and settlement
Link NOC:Foundation Design Lecture 24 - (12B) Design of foundation - Part 1
Link NOC:Foundation Design Lecture 25 - (13A) Design of Foundation - Part 2
Link NOC:Foundation Design Lecture 26 - (13B) Design of Foundation - Part 3
Link NOC:Foundation Design Lecture 27 - (14A) Design of Foundation - Part 4
Link NOC:Foundation Design Lecture 28 - (14B) Design of Foundation - Part 5
Link NOC:Foundation Design Lecture 29 - (15A) Types of foundations (Combined Footing)
Link NOC:Foundation Design Lecture 30 - (15B) Design of Raft Foundation
Link NOC:Foundation Design Lecture 31 - (16A) Earth Pressure Theories - Part 1
Link NOC:Foundation Design Lecture 32 - (16B) Earth Pressure Theories - Part 2
Link NOC:Foundation Design Lecture 33 - (17A) Earth Pressure Theories - Part 3
Link NOC:Foundation Design Lecture 34 - (17B) Earth Pressure Theories - Part 4
Link NOC:Foundation Design Lecture 35 - (18A) Earth Pressure Theories - Part 5
Link NOC:Foundation Design Lecture 36 - (18B) Deep Foundation - Part 1
Link NOC:Foundation Design Lecture 37 - (18C) Deep Foundation - Part 2
Link NOC:Foundation Design Lecture 38 - (18D) Deep Foundation - Part 3
Link NOC:Foundation Design Lecture 39 - (20A) Deep Foundation - Part 4
Link NOC:Foundation Design Lecture 40 - (20B) Deep Foundation - Part 5
Link NOC:Photogeology In Terrain Evaluation Lecture 1 - Introduction to Remote Sensing - Photogeology
Link NOC:Photogeology In Terrain Evaluation Lecture 2 - Introduction to Remote Sensing - Photogeology
Link NOC:Photogeology In Terrain Evaluation Lecture 3 - Fundamental Principle in Remote Sensing
Link NOC:Photogeology In Terrain Evaluation Lecture 4 - Aerial Photography
Link NOC:Photogeology In Terrain Evaluation Lecture 5 - Stereo-photos and their Importance
Link NOC:Photogeology In Terrain Evaluation Lecture 6 - Photo-interpretation Techniques
Link NOC:Photogeology In Terrain Evaluation Lecture 7 - Photogrammetry and its Significance
Link NOC:Photogeology In Terrain Evaluation Lecture 8 - Sensors, Cameras and Panchromatic Data
Link NOC:Photogeology In Terrain Evaluation Lecture 9 - Stereoscopy and Methods
Link NOC:Photogeology In Terrain Evaluation Lecture 10 - Relief Displacement on Aerial Photographs
Link NOC:Photogeology In Terrain Evaluation Lecture 11 - Fluvial Processes and Landforms
Link NOC:Photogeology In Terrain Evaluation Lecture 12 - Geomorphology of River Channels
Link NOC:Photogeology In Terrain Evaluation Lecture 13 - Drainage Basins and their Features
Link NOC:Photogeology In Terrain Evaluation Lecture 14 - Morphometric Parameters of Fluvial Channels
Link NOC:Photogeology In Terrain Evaluation Lecture 15 - Drainage Patterns and their Morphology
Link NOC:Photogeology In Terrain Evaluation Lecture 16 - Determination of Flightline (Lab)
Link NOC:Photogeology In Terrain Evaluation Lecture 17 - Determination of Flightline (Lab)
Link NOC:Photogeology In Terrain Evaluation Lecture 18 - Exercise on Relief Displacement
Link NOC:Photogeology In Terrain Evaluation Lecture 19 - Exercise on Stereoscopic Parallax
Link NOC:Photogeology In Terrain Evaluation Lecture 20 - Exercise on Stereoscopic Parallax
Link NOC:Photogeology In Terrain Evaluation Lecture 21 - Generation of Digital Elevation Model and Anaglyph
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 1 - Introduction to Geological Structures, Photo interpretation and Terrain evaluation
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 2 - Photo interpretation/identification of Landforms associated with Folds - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 3 - Photo interpretation/identification of Landforms associated with Folds - 2
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 4 - Identification of features related to ongoing Crustal Deformation and Mountain Building process
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 5 - Identification of Fault Topography
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 6 - Photogeology:Interpretations of Tectonic Landforms
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 7 - Photo Interpretations: Demarcation of Faults and related Landforms - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 8 - Photo Interpretations
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 9 - Photo Interpretations
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 10 - Photo-Interpretations: Lithology and Geomorphic Mapping
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 11 - Photo Interpretations: Lithology of Sedimentary and Intrusive Igneous Rocks
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 12 - Photo Interpretations: Lithology of Metamorphic and Extrusive Igneous Rocks
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 13 - Photo Interpretations: Coastal and Fluvial Landforms - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 14 - Photo Interpretations: Coastal and Fluvial Landforms - 2
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 15 - Photo Interpretations: Aeolian Landforms and their Surface Expressions
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 16 - Exercise on Identification of Geological Structures and related Landforms
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 17 - Exercise on Identification of Geomorphic Features related to Various Environments
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 18 - Exercise on Identification of Tectonic Features and Geomorphic Mapping using Satellite Data
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 19 - Exercise on Identification of Geological Structures and Geomorphic Landforms on Aerial/Satellite Photos
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 20 - Exercise on Morphometric Parameters and 3D observation of the Earth Surface Features
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 1 - Overview of the Course
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 2 - Introduction
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 3 - General Discussion on Construction Projects
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 4 - Time value of money
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 5 - Economic Decision Making - I
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 6 - Economic decision making - II
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 7 - Incremental Rate of Return (IROR)
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 8 - Benefit cost ratio
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 9 - Sensitivity analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 10 - Sensitivity analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 11 - Break-even analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 12 - Break-even analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 13 - Depreciation of construction equipment
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 14 - Effect of depreciation on cash flows
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 15 - Effect of depreciation and inflation on economic decision making
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 16 - Replacement analysis
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 17 - Risk analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 18 - Risk analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 19 - Risk analysis - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 20 - Simulation - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 21 - Simulation - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 22 - Bidding - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 23 - Bidding - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 24 - Bidding - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 25 - Bidding - Part 4
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 26 - Bidding - Part 5
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 27 - Bidding - Part 6
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 28 - Bidding - Part 7
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 29 - Introduction to accounting - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 30 - Introduction to accounting - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 31 - Introduction to accounting - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 32 - Revenue recognition
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 33 - Construction Contract Status Reports
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 34 - Assets and Liabilities
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 35 - Accounting statements - case study
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 36 - Working capital
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 37 - Financing resources for working capital
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 38 - Ratio analysis
Link NOC:Natural Hazards - Part 1 Lecture 1 - Introduction to Natural Hazards
Link NOC:Natural Hazards - Part 1 Lecture 2 - Introduction to Natural Hazards (Types of Hazard)
Link NOC:Natural Hazards - Part 1 Lecture 3 - Introduction to Natural Hazards (Earth as a system)
Link NOC:Natural Hazards - Part 1 Lecture 4 - Introduction to Natural Hazards (Cyclones and Earthquakes - Part I)
Link NOC:Natural Hazards - Part 1 Lecture 5 - Introduction to Natural Hazards (Cyclones and Earthquakes - Part II)
Link NOC:Natural Hazards - Part 1 Lecture 6 - Introduction to Natural Hazards (Disaster Management)
Link NOC:Natural Hazards - Part 1 Lecture 7 - Introduction to Natural Hazards (Seismic Zonation of India and Landslide)
Link NOC:Natural Hazards - Part 1 Lecture 8 - Introduction to Natural Hazards (Flood and Tsunami)
Link NOC:Natural Hazards - Part 1 Lecture 9 - Introduction to Natural Hazards (Disaster Prediction and Warning)
Link NOC:Natural Hazards - Part 1 Lecture 10 - Introduction to Natural Hazards (Recent Natural Calamities in India and Worldwide)
Link NOC:Natural Hazards - Part 1 Lecture 11 - Plate tectonics and related hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 12 - Plate tectonics and related hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 13 - Plate tectonics and related hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 14 - Active fault and Paleoseismology
Link NOC:Natural Hazards - Part 1 Lecture 15 - Case study on 2015 Gorkha Earthquake
Link NOC:Natural Hazards - Part 1 Lecture 16 - Earthquake and related hazard - Part I
Link NOC:Natural Hazards - Part 1 Lecture 17 - Earthquake and related hazard - Part II
Link NOC:Natural Hazards - Part 1 Lecture 18 - Earthquake and related hazard - Part III
Link NOC:Natural Hazards - Part 1 Lecture 19 - Ground Effects and Evaluation of Earthquake Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 20 - Ground Effects and Evaluation of Earthquake Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 21 - Ground Effects and Evaluation of Earthquake Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 22 - Liquefaction and Related Geological Features
Link NOC:Natural Hazards - Part 1 Lecture 23 - Motoring Seismic Activity - Part I
Link NOC:Natural Hazards - Part 1 Lecture 24 - Motoring Seismic Activity - Part II
Link NOC:Natural Hazards - Part 1 Lecture 25 - Volcano and Related Hazard - Part I
Link NOC:Natural Hazards - Part 1 Lecture 26 - Volcano and Related Hazard - Part II
Link NOC:Natural Hazards - Part 1 Lecture 27 - Introduction to Landslides
Link NOC:Natural Hazards - Part 1 Lecture 28 - Types of Landslide and Related Hazards
Link NOC:Natural Hazards - Part 1 Lecture 29 - Civil Engineering applications geological considerations in dams, tunnels - Part 2
Link NOC:Natural Hazards - Part 1 Lecture 30 - Civil Engineering applications geological considerations in dams, tunnels - Part 3 and Tsunami and related hazard - Part 1
Link NOC:Natural Hazards - Part 1 Lecture 31 - Tsunami and related hazard - Part 2
Link NOC:Natural Hazards - Part 1 Lecture 32 - Tsunami and related hazard - Part 3
Link NOC:Natural Hazards - Part 1 Lecture 33 - Landslide and subsidence - Part I
Link NOC:Natural Hazards - Part 1 Lecture 34 - Flood and Related Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 35 - Flood and Related Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 36 - Flood and Related Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 37 - Flood and Related Hazards - Part IV
Link NOC:Natural Hazards - Part 1 Lecture 38 - Flood and Related Hazards - Part V
Link NOC:Natural Hazards - Part 1 Lecture 39 - Introduction to Tsunami
Link NOC:Natural Hazards - Part 1 Lecture 40 - Tsunami and Related Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 41 - Tsunami and Related Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 42 - Tsunami and Related Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 43 - Tsunami Modelling
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 1 - Introduction to Structural Dynamics
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 2 - Modelling of Dynamic System
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 3 - Undamped Free vibration
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 4 - Damped Free Vibrations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 5 - Coulomb Damped Free Vibrations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 6 - Forced Vibrations - Part 1
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 7 - Forced Vibrations - Part 2
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 8 - Examples
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 9 - Harmonic Vibration Examples
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 10 - Vibrations under Periodic Forces
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 11 - Energy and Damping
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 12 - Response to Arbitrary excitations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 13 - Response to Pulse Excitations
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 1 - Introduction to Geomorphic processes- Landforms and Landscapes - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 2 - Introduction to Geomorphic Processes- Landforms and Landscapes - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 3 - Introduction to Geomorphic Processes- Landforms and Landscapes - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 4 - Earth Energy Budget - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 5 - Earth Energy Budget - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 6 - Earth and Environment
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 7 - Surface and Ground Water System and Management - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 8 - Surface and Ground Water System and Management - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 9 - Surface and Ground Water System and Management - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 10 - Interior of the Earth and Plate Tectonics - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 11 - Interior of the Earth and Plate Tectonics - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 12 - Interior of the Earth and Plate Tectonics - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 13 - Interior of the Earth and Plate Tectonics - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 14 - Interior of the Earth and Plate Tectonics - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 15 - Fluvial Processes and Related Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 16 - Fluvial Processes and Related Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 17 - Fluvial Processes and Related Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 18 - Fluvial Processes and Related Landforms - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 19 - Fluvial Processes and Related Landforms - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 20 - Fluvial Processes and Related Landforms - Part VI
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 21 - Fluvial Processes and Related Landforms - Part VII
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 22 - Fluvial Processes and Related Landforms - Part VIII
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 23 - Fluvial Processes and Related Landforms - Part IX
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 24 - Tectonic Geomorphology - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 25 - Tectonic Geomorphology - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 26 - Tectonic Geomorphology - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 27 - Tectonic Geomorphology - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 28 - Tectonic Geomorphology - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 29 - Glacial Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 30 - Glacial Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 31 - Glacial Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 32 - Coastal Processes and Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 33 - Coastal Processes and Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 34 - Coastal Processes and Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 35 - Aeolian Processes and Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 36 - Aeolian Processes and Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 37 - Tectonic Geomorphology of Kachchh - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 38 - Tectonic Geomorphology of Kachchh - Part II
Link NOC:Structural Geology Lecture 1 - Introduction - I
Link NOC:Structural Geology Lecture 2 - Introduction - II
Link NOC:Structural Geology Lecture 3 - Structural Elements and Measurements
Link NOC:Structural Geology Lecture 4 - How to measure strike-dip-pitch/rake-plunge
Link NOC:Structural Geology Lecture 5 - Stereographic Projection in Structural Geology
Link NOC:Structural Geology Lecture 6 - Concept of Strain and Deformation - Part I
Link NOC:Structural Geology Lecture 7 - Concept of Strain and Deformation - Part II
Link NOC:Structural Geology Lecture 8 - Strain Measurement
Link NOC:Structural Geology Lecture 9 - Stress - Part I
Link NOC:Structural Geology Lecture 10 - Stress - Part II
Link NOC:Structural Geology Lecture 11 - Basics of Rheology - Part I
Link NOC:Structural Geology Lecture 12 - Basics of Rheology - Part II
Link NOC:Structural Geology Lecture 13 - Basics of Rheology - Part III
Link NOC:Structural Geology Lecture 14 - Complex Rheology
Link NOC:Structural Geology Lecture 15 - Role of External Parameters
Link NOC:Structural Geology Lecture 16 - Crystal Defects and associated structures
Link NOC:Structural Geology Lecture 17 - Cataclastic Deformation
Link NOC:Structural Geology Lecture 18 - Intracrystalline Deformation
Link NOC:Structural Geology Lecture 19 - Diffusive Mass Transfer
Link NOC:Structural Geology Lecture 20 - Planar Fabrics (Foliation/ Cleavage/ Schistosity) - I
Link NOC:Structural Geology Lecture 21 - Planar Fabrics (Foliation/ Cleavage/ Schistosity) - II
Link NOC:Structural Geology Lecture 22 - Linear Fabrics (Lineation)
Link NOC:Structural Geology Lecture 23 - Folds and Folding: Basic Concepts
Link NOC:Structural Geology Lecture 24 - Folds and Folding: Classifications
Link NOC:Structural Geology Lecture 25 - Folds and Folding: Dip Isogons and Mechanisms
Link NOC:Structural Geology Lecture 26 - Folds and Folding: Superposed Folding
Link NOC:Structural Geology Lecture 27 - Porphyroblasts
Link NOC:Structural Geology Lecture 28 - Boudinage and Pinch-and-Swell Structures - I
Link NOC:Structural Geology Lecture 29 - Boudinage and Pinch-and-Swell Structures - II
Link NOC:Structural Geology Lecture 30 - Stereonet Problem I: True dip from two apparent dips
Link NOC:Structural Geology Lecture 31 - Stereonet Problem II: True dip from strike and one apparent dip
Link NOC:Structural Geology Lecture 32 - Stereonet Problem III: Pole to the Plane
Link NOC:Structural Geology Lecture 33 - Stereonet Problem IV: Fold axis and Axial plane
Link NOC:Structural Geology Lecture 34 - Stereonet Problem V: Fold geometry from pole data of two limbs
Link NOC:Structural Geology Lecture 35 - Fractures and Joints - I
Link NOC:Structural Geology Lecture 36 - Fractures and Joints - II
Link NOC:Structural Geology Lecture 37 - Faults and Faulting - I
Link NOC:Structural Geology Lecture 38 - Stereonet Problem VI - Fold geometry from interlimb angle and fold axes
Link NOC:Structural Geology Lecture 39 - Stereonet Problem VII - Fold geometry from pitch of the limbs on another plane
Link NOC:Structural Geology Lecture 40 - Faults and Faulting - II
Link NOC:Structural Geology Lecture 41 - Ductile Shear Zones - I
Link NOC:Structural Geology Lecture 42 - Ductile Shear Zones - II
Link NOC:Structural Geology Lecture 43 - Basic of Litho-Structural Mapping
Link NOC:Structural Geology Lecture 44 - Paleostress analysis
Link NOC:Structural Geology Lecture 45 - Graphical Problem
Link NOC:Structural Geology Lecture 46 - Three point problem
Link NOC:Structural Geology Lecture 47 - Construction of Topographic Profile
Link NOC:Structural Geology Lecture 48 - Construction of Geological Cross-section
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 1 - Introduction to Earthquake Geology - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 2 - Introduction to Earthquake Geology - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 3 - Introduction to Earthquake Geology - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 4 - Introduction to Earthquake Geology - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 5 - Fundamentals Related to Paleoseismology - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 6 - Fundamentals Related to Paleoseismology - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 7 - Fundamentals Related to Paleoseismology - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 8 - Plate Tectonics - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 9 - Plate Tectonics - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 10 - Plate Tectonics - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 11 - Plate tectonics - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 12 - Plate Tectonics - Part V
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 13 - Seismic Zonation of India
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 14 - Interior of the Earth - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 15 - Interior of the Earth - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 16 - Earthquake Forecasting and Prediction Model - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 17 - Earthquake Forecasting and Prediction Model - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 18 - Earthquake Forecasting and Prediction Model - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 19 - Earthquake in Interplate and Intraplate Region
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 20 - Earthquake Magnitude and Intensity Scale - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 21 - Earthquake Magnitude and Intensity Scale - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 22 - Fundamentals Related to Active Faults - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 23 - Fundamentals Related to Active Faults - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 24 - Fundamentals Related to Active Faults - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 25 - Fundamentals Related to Active Faults - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 26 - Lab and Field Techniques in Active Fault Mapping and Paleoseismic studies - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 27 - Lab and Field Techniques in Active Fault Mapping and Paleoseismic studies - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 28 - Lab and Field Techniques in Active Fault Mapping and Paleoseismic studies - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 29 - Lab and Field Techniques in Active Fault Mapping and Paleoseismic studies - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 30 - Lab and Field Techniques in Active Fault Mapping and Paleoseismic studies - Part V
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 31 - Extensional Tectonic Environments and Related Landforms - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 32 - Extensional Tectonic Environments and Related Landforms - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 33 - Extensional Tectonic Environments and Related Landforms - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 34 - Extensional Tectonic Environments and Related Landforms - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 35 - Compressional Tectonic Environments and Related Landforms - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 36 - Compressional Tectonic Environments and Related Landforms - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 37 - Compressional Tectonic Environments and Related Landforms - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 38 - Compressional Tectonic Environments and Related Landforms - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 39 - Compressional Tectonic Environments and Related Landforms - Part V
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 40 - Compressional Tectonic Environments and Related Landforms - Part VI
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 41 - Compressional Tectonic Environments and Related Landforms - Part VII
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 42 - Strike-Slip Tectonic Environments and Related Landforms - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 43 - Strike-Slip Tectonic Environments and Related Landforms - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 44 - Strike-Slip Tectonic Environments and Related Landforms - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 45 - Strike-Slip Tectonic Environments and Related Landforms - Part IV
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 46 - Geomoprhic Markers for Fluvial Environment - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 47 - Geomoprhic Markers for Fluvial Environment - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 48 - Geomorphic Markers - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 49 - Tectonic Geomorphology - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 50 - Tectonic Geomorphology - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 51 - Coastal Geomorphic Markers - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 52 - Coastal Geomorphic Markers - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 53 - Coastal Geomorphic Markers - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 54 - Tsunami and Paleostsunami signatures Investigation - Part I
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 55 - Tsunami and Paleostsunami signatures Investigation - Part II
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 56 - Tsunami and Paleostsunami signatures Investigation - Part III
Link NOC:Earthquake Geology: A tool for Seismic Hazard Assessment Lecture 57 - Field Documentary
Link NOC:Development and Applications of Special Concretes Lecture 1 - Some starting points
Link NOC:Development and Applications of Special Concretes Lecture 2 - Concrete - A composite material
Link NOC:Development and Applications of Special Concretes Lecture 3 - Basic properties (Fresh concrete)
Link NOC:Development and Applications of Special Concretes Lecture 4 - Basic properties (Hardened concrete)
Link NOC:Development and Applications of Special Concretes Lecture 5 - Fundamentals of proportioning concrete mixes
Link NOC:Development and Applications of Special Concretes Lecture 6 - Proportioning of normal concrete mixes
Link NOC:Development and Applications of Special Concretes Lecture 7 - Concrete mix proportions: Analysis and adjustments
Link NOC:Development and Applications of Special Concretes Lecture 8 - Pores and porosity in concrete
Link NOC:Development and Applications of Special Concretes Lecture 9 - Admixtures in concrete
Link NOC:Development and Applications of Special Concretes Lecture 10 - Curing of Concrete
Link NOC:Development and Applications of Special Concretes Lecture 11 - Cold weather Concreting
Link NOC:Development and Applications of Special Concretes Lecture 12 - Hot Weather Concreting
Link NOC:Development and Applications of Special Concretes Lecture 13 - Special Topics I - Importance of Right Methods and Specifications
Link NOC:Development and Applications of Special Concretes Lecture 14 - Heat of Hydration of Cement and Thermal Stresses
Link NOC:Development and Applications of Special Concretes Lecture 15 - Antiwashout Underwater Concrete
Link NOC:Development and Applications of Special Concretes Lecture 16 - Concreting Underwater
Link NOC:Development and Applications of Special Concretes Lecture 17 - Roller Compacted Concrete
Link NOC:Development and Applications of Special Concretes Lecture 18 - Self Compacting Concrete - I
Link NOC:Development and Applications of Special Concretes Lecture 19 - Self Compacting Concrete - II
Link NOC:Development and Applications of Special Concretes Lecture 20 - Self Compacting Concrete - III
Link NOC:Development and Applications of Special Concretes Lecture 21 - Special Topics - Rheology
Link NOC:Development and Applications of Special Concretes Lecture 22 - Fibre-Reinforced Concrete - I
Link NOC:Development and Applications of Special Concretes Lecture 23 - Fibre-Reinforced Concrete - II
Link NOC:Development and Applications of Special Concretes Lecture 24 - Fibre-Reinforced Concrete - III
Link NOC:Development and Applications of Special Concretes Lecture 25 - Mixing of Concrete
Link NOC:Development and Applications of Special Concretes Lecture 26 - Shotcrete
Link NOC:Development and Applications of Special Concretes Lecture 27 - High Strength Concrete
Link NOC:Development and Applications of Special Concretes Lecture 28 - Using Polymers in Concrete
Link NOC:Development and Applications of Special Concretes Lecture 29 - Improving the Quality of Cover Concrete
Link NOC:Development and Applications of Special Concretes Lecture 30 - Compaction of Concrete
Link NOC:Development and Applications of Special Concretes Lecture 31 - Precast Concrete
Link NOC:Development and Applications of Special Concretes Lecture 32 - Closing the Course
Link NOC:Introductory Field Structural Geology Lecture 1
Link NOC:Introductory Field Structural Geology Lecture 2
Link NOC:Introductory Field Structural Geology Lecture 3
Link NOC:Introductory Field Structural Geology Lecture 4
Link NOC:Introductory Field Structural Geology Lecture 5
Link NOC:Introductory Field Structural Geology Lecture 6
Link NOC:Introductory Field Structural Geology Lecture 7
Link NOC:Introductory Field Structural Geology Lecture 8
Link NOC:Introductory Field Structural Geology Lecture 9
Link NOC:Introductory Field Structural Geology Lecture 10
Link NOC:Introductory Field Structural Geology Lecture 11
Link NOC:Introductory Field Structural Geology Lecture 12
Link NOC:Introductory Field Structural Geology Lecture 13
Link NOC:Introductory Field Structural Geology Lecture 14
Link NOC:Introductory Field Structural Geology Lecture 15
Link NOC:Introductory Field Structural Geology Lecture 16
Link NOC:Introductory Field Structural Geology Lecture 17
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 1 - Introduction to Geosciences in Civil Engineering - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 2 - Introduction to Geosciences in Civil Engineering - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 3 - Introduction to Geosciences in Civil Engineering - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 4 - Plate Tectonics and Continental Drift - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 5 - Plate Tectonics and Continental Drift - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 6 - Plate Tectonics and Continental Drift - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 7 - Plate Tectonics and Continental Drift - IV
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 8 - Plate Tectonics and Continental Drift - V
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 9 - Plate Tectonics and Continental Drift - VI
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 10 - Plate Tectonics and Continental Drift - VII
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 11 - Plate Tectonics and Continental Drift - VIII
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 12 - Rock-Forming Minerals and their Properties - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 13 - Rock-Forming Minerals and their Properties - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 14 - Rock-Forming Minerals and their Properties - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 15 - Igneous Rocks and their Properties - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 16 - Igneous Rocks and their Properties - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 17 - Igneous Rocks and their Properties - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 18 - Sedimentary Rocks and their Properties - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 19 - Sedimentary Rocks and their Properties - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 20 - Sedimentary Rocks and their Properties - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 21 - Metamorphic Rocks and their Properties - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 22 - Metamorphic Rocks and their Properties - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 23 - Seismology and Internal Structure of the earth - Part 1
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 24 - Seismology and Internal Structure of the earth - Part 2
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 25 - Seismology and Internal Structure of the earth - Part 3
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 26 - Seismology and Internal Structure of the earth - Part 4
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 27 - Seismology and Internal Structure of the earth - Part 5
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 28 - Seismic Events and Sediments Amplification - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 29 - Seismic Events and Sediments Amplification - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 30 - Geological Structures - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 31 - Geological Structures - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 32 - Geological Structures - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 33 - Geological Structures - IV
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 34 - Sterographic Projection of Geological Strata
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 35 - Faults and its Characteristics
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 36 - Active Faults and Associated Hazard - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 37 - Active Faults and Associated Hazard - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 38 - Active Faults and Associated Hazard - III
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 39 - Rivers and Associated Landforms - I
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 40 - Rivers and Associated Landforms - II
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 41 - Shear Strength of Soil and its Implications towards Hazard
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 42 - Landslides and Associated Hazard
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 43 - Rock Mass Classification System
Link NOC:Earth Sciences for Civil Engineering (Hindi) Lecture 44 - Dam and Tunnels
Link Advanced Foundation Engineering Lecture 1 - Introduction
Link Advanced Foundation Engineering Lecture 2 - Soil Exploration
Link Advanced Foundation Engineering Lecture 3 - Soil Exploration - Penetration Tests
Link Advanced Foundation Engineering Lecture 4 - Soil Exploration - Geophysical Exploration
Link Advanced Foundation Engineering Lecture 5 - Shallow Foundation - Introduction
Link Advanced Foundation Engineering Lecture 6 - Shallow Foundation : Bearing Capacity - I
Link Advanced Foundation Engineering Lecture 7 - Shallow Foundation : Bearing Capacity - II
Link Advanced Foundation Engineering Lecture 8 - Shallow Foundation : Bearing Capacity - III
Link Advanced Foundation Engineering Lecture 9 - Shallow Foundation : Bearing Capacity - IV
Link Advanced Foundation Engineering Lecture 10 - Shallow Foundation : Bearing Capacity - V
Link Advanced Foundation Engineering Lecture 11 - Shallow Foundation - Settlement Calculation - I
Link Advanced Foundation Engineering Lecture 12 - Shallow Foundation - Settlement Calculation - II
Link Advanced Foundation Engineering Lecture 13 - Shallow Foundation - Settlement Calculation - III
Link Advanced Foundation Engineering Lecture 14 - Design of Shallow Foundation
Link Advanced Foundation Engineering Lecture 15 - Design of Raft Foundation
Link Advanced Foundation Engineering Lecture 16 - Deep Foundation - Introduction
Link Advanced Foundation Engineering Lecture 17 - Pile Foundation - Load Carrying Capacity - I
Link Advanced Foundation Engineering Lecture 18 - Pile Foundation - Load Carrying Capacity - II
Link Advanced Foundation Engineering Lecture 19 - Pile Foundation - Load Carrying Capacity - III and Settlement Calculation
Link Advanced Foundation Engineering Lecture 20 - Tension and Lateral Loaded Piles
Link Advanced Foundation Engineering Lecture 21 - Well Foundation
Link Advanced Foundation Engineering Lecture 22 - Well Foundation (Continued...)
Link Advanced Foundation Engineering Lecture 23 - Design of Retaining Wall
Link Advanced Foundation Engineering Lecture 24 - Design of Retaining Wall (Continued...)
Link Advanced Foundation Engineering Lecture 25 - Design of Sheet Piles
Link Advanced Foundation Engineering Lecture 26 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 27 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 28 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 29 - Reinforced Earth
Link Advanced Foundation Engineering Lecture 30 - Reinforced Retaining Wall
Link Advanced Foundation Engineering Lecture 31 - Seismic Design of Retaining Wall
Link Advanced Foundation Engineering Lecture 32 - Seismic Design of Retaining Walls (Continued...)
Link Advanced Foundation Engineering Lecture 33 - Soil - Foundation Interaction
Link Advanced Foundation Engineering Lecture 34 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 35 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 36 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 37 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 38 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 39 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 40 - Soil - Foundation Interaction (Continued...)
Link Ground Water Hydrology Lecture 1 - Introduction : Ground Water (GW) Utilization and Historical Background, GW in hydrologic Cycle
Link Ground Water Hydrology Lecture 2 - Ground Water in & % Hydrologic Cycle (Continued...), Ground Water Budget, Ground Water Level Fluctuations and Environmental Influence
Link Ground Water Hydrology Lecture 3 - Ground water Level Fluctuations and Environmental Influence (Continued...) Literature/Data/Internet Resources
Link Ground Water Hydrology Lecture 4 - Ground water Level Fluctuations and Environmental Influence (Continued...) Literature/Data/Internet Resources
Link Ground Water Hydrology Lecture 5 - Occurrence and Movement of Ground Water : Origin and Age of Ground Water, Rock Properties Affecting Ground Water, Ground Water Column
Link Ground Water Hydrology Lecture 6 - Zones of Aeration and Saturation; Aquifers and their characteristics/classification
Link Ground Water Hydrology Lecture 7 - Aquifer Classification (Continued...), Ground water Basins and Springs; Dorcy's Law; Permeability
Link Ground Water Hydrology Lecture 8 - Determination pf Permeability :Heterogeneity and Anisotropy
Link Ground Water Hydrology Lecture 9 - Ground Water (GW) flowrates and flow directions; general flow equations through porous media
Link Ground Water Hydrology Lecture 10 - General Flow Equations Through Porous Media (Continued...), Dupuit's Assumptions
Link Ground Water Hydrology Lecture 11 - 1-D Unconfined Ground water Flows; Steady Flow into Wells
Link Ground Water Hydrology Lecture 12 - Steady Flow into Wells (Continued...); Unsteady Flow into Wells
Link Ground Water Hydrology Lecture 13 - Unsteady Flow into Wells (Continued...)
Link Ground Water Hydrology Lecture 14 - Unsteady Radial Flow in Confined and Unconfined Aquifers
Link Ground Water Hydrology Lecture 15 - Unsteady Radial Flow in Leaky Aquifers (Continued...); Well Flow Near Aquifer Boundaries
Link Ground Water Hydrology Lecture 16 - Well Flow for Special Conditions; Partially Penetrating Wells; Horizontal Wells and Collector Wells;Multiple Well Systems
Link Ground Water Hydrology Lecture 17 - Well Completion;Well Development; Well Protection; Well Rehabilitation; Well testing for Yields
Link Ground Water Hydrology Lecture 18 - Well Protection/Rehabilitation/Testing for yield (Continued...); Artificial Ground Water Recharge : Concept and Methods
Link Ground Water Hydrology Lecture 19 - Concept and methods of Artificial Ground Water Recharge (Continued...); Recharge Mounds and Induced Recharge
Link Ground Water Hydrology Lecture 20 - Induced Recharge (Continued...); Wastewater recharge for reuse; Water spreading
Link Ground Water Hydrology Lecture 21 - Pollution and Quality Analysis of Ground Water : Sources of Pollution of GW-Municipal, Industrial,Agricultural and Miscellaneous
Link Ground Water Hydrology Lecture 22 - Ground Water Pollution from Industrial, Agricultural and Miscellaneous Sources (Continued...)
Link Ground Water Hydrology Lecture 23 - Ground Water Pollution from Miscellaneous Sources (Continued...), Attenuation and Underground Distribution of Pollutants
Link Ground Water Hydrology Lecture 24 - Potential Evaluation of Ground water Pollution; Physical/Chemical/Biological analysis of Ground Water quality; Criteria and measures of Ground water quality
Link Ground Water Hydrology Lecture 25 - Ground water salinity and samples ;Graphical representations of ground water quality
Link Ground Water Hydrology Lecture 26 - Graphical representations of ground water quality (Continued...), Surface/Sub-Surface Investigation Of Ground Water:Geological/geophysical exploration;Remote sensing/electrical resistivity methods
Link Ground Water Hydrology Lecture 27 - Surface Investigation of ground water (Continued...):Electrical resistivity seismic refraction/gravity/magnetic methods
Link Ground Water Hydrology Lecture 28 - Seismic refraction/gravity/magnetic methods (Continued...);Sub-surface investigation of ground water: Geographical/resistivity methods
Link Ground Water Hydrology Lecture 29 - Sub-surface investigation of ground water (Continued...): Geographical/resistivity/spontaneous potential/radiation of methods of logging
Link Ground Water Hydrology Lecture 30 - Radiation method of logging (Continued...); Temperature/caliper/fluid conductivity/fluid velocity/miscellaneous logging methods
Link Ground Water Hydrology Lecture 31 - Saline Water Intrusion in Aquifers:Occurence, Features affecting aquifers,Bodon - Ghyben - Hergberg Principle
Link Ground Water Hydrology Lecture 32 - Saline Water Intrusion in Aquifers : Bodon - Ghyben - Hergberg principle (Continued...), Analytical Solution of Saline Water Intrusion in Coastal Aquifer
Link Ground Water Hydrology Lecture 33 - Saline Water Intrusion in Aquifers : Analytical Solution of Saline Water Intrusion in Coastal Aquifer (Continued...), Density dependent salt water intrusion model
Link Ground Water Hydrology Lecture 34 - Saline Water Intrusion in Aquifers : Geochemical Investigations, Control of salt water intrusion, Practical Modeling of salt water intrusion
Link Ground Water Hydrology Lecture 35 - Modeling and Management of Ground Water : Ground Water Simulation Models, Ground Water Management Model : Confined Aquifer
Link Ground Water Hydrology Lecture 36 - Modeling and Management of Ground Water : Ground Water Management Model : Confined and Unconfined Aquifer, Linked Simulation - Optimization, Meta Model Based Approach
Link Ground Water Hydrology Lecture 37 - Modeling and Management of Ground Water : Contaminant Source Identification , Monitoring Network Design
Link Ground Water Hydrology Lecture 38 - Modeling and Management of Ground Water : Aquifer Yield and Ground Water Availability, Effects of Ground Water Development, Regional Scale Development of Ground Water
Link Ground Water Hydrology Lecture 39 - Modeling and Management of Ground Water : Conjunctive Surface - Subsurface Modeling of Overland Flow including flow through Vadose zone
Link Ground Water Hydrology Lecture 40 - Modeling and Management of Ground Water : Ground Water - Surface Water Interaction
Link Numerical Methods in Civil Engineering Lecture 1 - Introduction to Numerical Methods
Link Numerical Methods in Civil Engineering Lecture 2 - Error Analysis
Link Numerical Methods in Civil Engineering Lecture 3 - Introduction to Linear Systems - I
Link Numerical Methods in Civil Engineering Lecture 4 - Linear Systems - II
Link Numerical Methods in Civil Engineering Lecture 5 - Linear Systems - III
Link Numerical Methods in Civil Engineering Lecture 6 - Linear Systems - Error Bounds
Link Numerical Methods in Civil Engineering Lecture 7 - Error Bounds and Iterative Methods for Solving Linear Systems
Link Numerical Methods in Civil Engineering Lecture 8 - Iterative Methods for Solving Linear Systems - I
Link Numerical Methods in Civil Engineering Lecture 9 - Iterative Methods - II
Link Numerical Methods in Civil Engineering Lecture 10 - Iterative Methods - III
Link Numerical Methods in Civil Engineering Lecture 11 - Iterative Methods for Eigen Value Extraction
Link Numerical Methods in Civil Engineering Lecture 12 - Solving Nonlinear Equations - I
Link Numerical Methods in Civil Engineering Lecture 13 - Solving Nonlinear Equations - II
Link Numerical Methods in Civil Engineering Lecture 14 - Solving Multi Dimensional Nonlinear Equations - I
Link Numerical Methods in Civil Engineering Lecture 15 - Solving Multi Dimensional Nonlinear Equations - II
Link Numerical Methods in Civil Engineering Lecture 16 - ARC Length and Gradient Based Methods
Link Numerical Methods in Civil Engineering Lecture 17 - Gradient Based Methods
Link Numerical Methods in Civil Engineering Lecture 18 - Conjugate Gradient Method - I
Link Numerical Methods in Civil Engineering Lecture 19 - Conjugate Gradient Method - II
Link Numerical Methods in Civil Engineering Lecture 20 - Nonlinear Conjugate Gradient and Introduction to PDEs
Link Numerical Methods in Civil Engineering Lecture 21 - Eigenfunction Solutions for the Wave Equation
Link Numerical Methods in Civil Engineering Lecture 22 - Analytical Methods for Solving the Wave Equation
Link Numerical Methods in Civil Engineering Lecture 23 - Analytical Methods for Hyperbolic and Parabolic PDEs
Link Numerical Methods in Civil Engineering Lecture 24 - Analytical Methods for Parabolic and Elliptic PDEs
Link Numerical Methods in Civil Engineering Lecture 25 - Analytical Methods for Elliptic PDE\'s
Link Numerical Methods in Civil Engineering Lecture 26 - Series Solutions for Elliptic PDE\'s and Introduction to Differential Operators
Link Numerical Methods in Civil Engineering Lecture 27 - Differential Operators - I
Link Numerical Methods in Civil Engineering Lecture 28 - Differential Operators - II
Link Numerical Methods in Civil Engineering Lecture 29 - Differential Operators - III
Link Numerical Methods in Civil Engineering Lecture 30 - Interpolation
Link Numerical Methods in Civil Engineering Lecture 31 - Polynomial Fitting
Link Numerical Methods in Civil Engineering Lecture 32 - Orthogonal Polynomials - I
Link Numerical Methods in Civil Engineering Lecture 33 - Orthogonal Polynomials - II
Link Numerical Methods in Civil Engineering Lecture 34 - Orthogonal Polynomials - III
Link Numerical Methods in Civil Engineering Lecture 35 - Spline Functions
Link Numerical Methods in Civil Engineering Lecture 36 - Orthogonal Basis Functions for Solving PDE\'s - I
Link Numerical Methods in Civil Engineering Lecture 37 - Orthogonal Basis Functions for Solving PDE\'s - II
Link Numerical Methods in Civil Engineering Lecture 38 - Integral Equations - I
Link Numerical Methods in Civil Engineering Lecture 39 - Integral Equations - II
Link Numerical Methods in Civil Engineering Lecture 40 - Integral Equations - III
Link Probability Methods in Civil Engineering Lecture 1 - Introduction - Role of Probability in Civil Engineering
Link Probability Methods in Civil Engineering Lecture 2 - Random Events and Probability Concept
Link Probability Methods in Civil Engineering Lecture 3 - Set Theory and Set Operations
Link Probability Methods in Civil Engineering Lecture 4 - Axioms of Probability
Link Probability Methods in Civil Engineering Lecture 5 - Probability of Events
Link Probability Methods in Civil Engineering Lecture 6 - Concept and Defination of Random Variables
Link Probability Methods in Civil Engineering Lecture 7 - Probability Distribution of Random Variables
Link Probability Methods in Civil Engineering Lecture 8 - CDF and Descriptors of Random Variables
Link Probability Methods in Civil Engineering Lecture 9 - Further Descriptors of Random Variables
Link Probability Methods in Civil Engineering Lecture 10 - Discrete Probability Distribution
Link Probability Methods in Civil Engineering Lecture 11 - Probability Distribution of Continuous RVs
Link Probability Methods in Civil Engineering Lecture 12 - Probability Distribution of Continuous RVs (Continued...1)
Link Probability Methods in Civil Engineering Lecture 13 - Probability Distribution of Continuous RVs (Continued...2)
Link Probability Methods in Civil Engineering Lecture 14 - Functions of Single Random Variables
Link Probability Methods in Civil Engineering Lecture 15 - Functions of Random Variables - Different Methods
Link Probability Methods in Civil Engineering Lecture 16 - Functions of Random Variables - Different Methods (Continued...)
Link Probability Methods in Civil Engineering Lecture 17 - Expectation and Moments of Functions of RV
Link Probability Methods in Civil Engineering Lecture 18 - Expectation and Moments of Functions of RV (Continued...)
Link Probability Methods in Civil Engineering Lecture 19 - Joint Probability Distribution
Link Probability Methods in Civil Engineering Lecture 20 - Marginal Probability Distribution
Link Probability Methods in Civil Engineering Lecture 21 - Conditional Probability Distribution
Link Probability Methods in Civil Engineering Lecture 22 - Conditional Probability Distribution (Continued...)
Link Probability Methods in Civil Engineering Lecture 23 - Properties of Multiple Random Variables
Link Probability Methods in Civil Engineering Lecture 24 - Properties of Multiple Random Variables (Continued...)
Link Probability Methods in Civil Engineering Lecture 25 - MGF of Multivariate RVs and Multivariate Probability Distributions
Link Probability Methods in Civil Engineering Lecture 26 - Multivariate Distribution and Functions of Multiple Random Variables
Link Probability Methods in Civil Engineering Lecture 27 - Functions of Multiple Random Variables (Continued...1)
Link Probability Methods in Civil Engineering Lecture 28 - Functions of Multiple Random Variables (Continued...2)
Link Probability Methods in Civil Engineering Lecture 29 - Introduction to Copulas
Link Probability Methods in Civil Engineering Lecture 30 - Introduction to Copulas (Continued...)
Link Probability Methods in Civil Engineering Lecture 31 - Probability Models using Normal Distribution
Link Probability Methods in Civil Engineering Lecture 32 - Probability Models using Log Normal and Exponential Distribution
Link Probability Methods in Civil Engineering Lecture 33 - Probability Models using Gamma and Extreme Value Distribution
Link Probability Methods in Civil Engineering Lecture 34 - Probability Models using Discrete Probability Distributions
Link Probability Methods in Civil Engineering Lecture 35 - Sampling Distribution and Parameter Estimation
Link Probability Methods in Civil Engineering Lecture 36 - Sampling Distribution and Parameter Estimation (Continued...)
Link Probability Methods in Civil Engineering Lecture 37 - Hypothesis Testing
Link Probability Methods in Civil Engineering Lecture 38 - Goodness - of - fit tests
Link Probability Methods in Civil Engineering Lecture 39 - Regression Analyses and Correlation
Link Probability Methods in Civil Engineering Lecture 40 - Regression Analyses and Correlation (Continued...)
Link Design of Reinforced Concrete Structures Lecture 1 - Introduction - I
Link Design of Reinforced Concrete Structures Lecture 2 - Materials
Link Design of Reinforced Concrete Structures Lecture 3 - Different Methods of Design of Reinforced Concrete Structures
Link Design of Reinforced Concrete Structures Lecture 4 - Working Stress Method
Link Design of Reinforced Concrete Structures Lecture 5 - Working Stress Method (Continued...)
Link Design of Reinforced Concrete Structures Lecture 6 - Limit State of Collapse Flexure - I
Link Design of Reinforced Concrete Structures Lecture 7 - Limit State of Collapse Flexure - II
Link Design of Reinforced Concrete Structures Lecture 8 - Design of Doubly Reinforced Beam Flexure - I
Link Design of Reinforced Concrete Structures Lecture 9 - Design of Doubly Reinforced Beam Flexure - II
Link Design of Reinforced Concrete Structures Lecture 10 - Design of Doubly Reinforced Beam Flexure
Link Design of Reinforced Concrete Structures Lecture 11 - Limit State of Collapse Shear
Link Design of Reinforced Concrete Structures Lecture 12 - Design for Shear
Link Design of Reinforced Concrete Structures Lecture 13 - Design for Shear (Continued...)
Link Design of Reinforced Concrete Structures Lecture 14 - Design of Slabs - Part I
Link Design of Reinforced Concrete Structures Lecture 15 - Design of Slabs - Part II
Link Design of Reinforced Concrete Structures Lecture 16 - Design of Slabs - Part III
Link Design of Reinforced Concrete Structures Lecture 17 - Design of Slabs - Part IV
Link Design of Reinforced Concrete Structures Lecture 18 - Design of Slabs - Part V
Link Design of Reinforced Concrete Structures Lecture 19 - Design of Columns - Part I
Link Design of Reinforced Concrete Structures Lecture 20 - Design of Columns - Part II
Link Design of Reinforced Concrete Structures Lecture 21 - Design of Columns - Part III
Link Design of Reinforced Concrete Structures Lecture 22 - Design of Columns - Part IV
Link Design of Reinforced Concrete Structures Lecture 23 - Design of Columns - Part V
Link Design of Reinforced Concrete Structures Lecture 24 - Design of Footings - Part I
Link Design of Reinforced Concrete Structures Lecture 25 - Design of Footings - Part II
Link Design of Reinforced Concrete Structures Lecture 26 - Design of Staircases
Link Design of Reinforced Concrete Structures Lecture 27 - Design for Torsion - Part I
Link Design of Reinforced Concrete Structures Lecture 28 - Design for Torsion - Part II
Link Design of Reinforced Concrete Structures Lecture 29 - Design of RC Slender Columns
Link Design of Reinforced Concrete Structures Lecture 30 - Deflection of RC Beams
Link Engineering Geology Lecture 1 - Introduction to Engineering Geology
Link Engineering Geology Lecture 2 - Geologic Structures
Link Engineering Geology Lecture 3 - Geologic Maps and Stratigraphic Sections
Link Engineering Geology Lecture 4 - Remote Sensing in Engineering Geology
Link Engineering Geology Lecture 5 - Physical Properties of Minerals
Link Engineering Geology Lecture 6 - Crystallography and Optical Properties
Link Engineering Geology Lecture 7 - Chemical Characteristics of Minerals
Link Engineering Geology Lecture 8 - Origin And Types of Rocks
Link Engineering Geology Lecture 9 - Origin And Types of Soils
Link Engineering Geology Lecture 10 - Igneous Rocks
Link Engineering Geology Lecture 11 - Sedimentary Rocks
Link Engineering Geology Lecture 12 - Metamorphic Rocks
Link Engineering Geology Lecture 13 - Weathering
Link Engineering Geology Lecture 14 - Sediment Transport and Deposition
Link Engineering Geology Lecture 15 - Introduction to Subsurface Exploration
Link Engineering Geology Lecture 16 - Introduction to Subsurface Exploration
Link Engineering Geology Lecture 17 - Sampling and Non - Intrusive Methods
Link Engineering Geology Lecture 18 - Index Properties and Classification of Soils
Link Engineering Geology Lecture 19 - Index Properties of Rock and Rock Mass
Link Engineering Geology Lecture 20 - Stress-Strain Behavior of Soil and Rock - I
Link Engineering Geology Lecture 21 - Stress-Strain Behavior of Soil and Rock - II
Link Engineering Geology Lecture 22 - In-situ State of Stress
Link Engineering Geology Lecture 23 - Geologic Considerations in Tunneling
Link Engineering Geology Lecture 24 - Geologic Considerations in Dam Construction
Link Engineering Geology Lecture 25 - Groundwater - Preliminaries
Link Engineering Geology Lecture 26 - Groundwater Flow - I
Link Engineering Geology Lecture 27 - Groundwater Flow - II
Link Engineering Geology Lecture 28 - Groundwater Related Engineering Issues
Link Engineering Geology Lecture 29 - Groundwater Over Utilization
Link Engineering Geology Lecture 30 - Plate Tectonics
Link Engineering Geology Lecture 31 - Plate Tectonics - 2 and Earthquake
Link Engineering Geology Lecture 32 - Earthquake Hazard Assessment
Link Engineering Geology Lecture 33 - Geologic Hazards - Seismicity and Volcanism
Link Engineering Geology Lecture 34 - Geologic Hazards - Shoreline Processes
Link Engineering Geology Lecture 35 - Geologic Hazards - Shoreline Processes
Link Engineering Geology Lecture 36 - Geologic Hazards - Landslide Hazards - Zoning
Link Engineering Geology Lecture 37 - Geologic Hazards Subsidence , Collapsible Soils
Link Engineering Geology Lecture 38 - Preparation of Geologic Sections
Link Engineering Geology Lecture 39 - Index testing of soil & rocks
Link Engineering Geology Lecture 40 - Identification of minerals and rock samples
Link Introduction to Transportation Engineering Lecture 1 - Transportation Engineering
Link Introduction to Transportation Engineering Lecture 2 - Elements of Concern and Components
Link Introduction to Transportation Engineering Lecture 3 - Traffic Stream Characteristics
Link Introduction to Transportation Engineering Lecture 4 - Traffic Studies : Part - I
Link Introduction to Transportation Engineering Lecture 5 - Traffic Studies : Part - II
Link Introduction to Transportation Engineering Lecture 6 - Highway Capacity and Level of Service
Link Introduction to Transportation Engineering Lecture 7 - Intersection Control and Signalization
Link Introduction to Transportation Engineering Lecture 8 - Functional Classification, Design Elements
Link Introduction to Transportation Engineering Lecture 9 - Cross Section Elements
Link Introduction to Transportation Engineering Lecture 10 - Stopping Sight Distance And Decision Sight
Link Introduction to Transportation Engineering Lecture 11 - Overtaking, Intermediate and Headlight Sight
Link Introduction to Transportation Engineering Lecture 12 - Intersection Sight Distance - I
Link Introduction to Transportation Engineering Lecture 13 - Intersection Sight Distance - II
Link Introduction to Transportation Engineering Lecture 14 - Horizontal Alignment - I
Link Introduction to Transportation Engineering Lecture 15 - Horizontal Alignment - II
Link Introduction to Transportation Engineering Lecture 16 - Horizontal Alignment - III
Link Introduction to Transportation Engineering Lecture 17 - Horizontal Alignment - IV
Link Introduction to Transportation Engineering Lecture 18 - Horizontal Alignment - V
Link Introduction to Transportation Engineering Lecture 19 - Horizontal Alignment - VI
Link Introduction to Transportation Engineering Lecture 20 - Vertical Alignment - I
Link Introduction to Transportation Engineering Lecture 21 - Vertical Alignment - II
Link Introduction to Transportation Engineering Lecture 22 - Vertical Alignment - III
Link Introduction to Transportation Engineering Lecture 23 - Highway Alignment
Link Introduction to Transportation Engineering Lecture 24 - Principles of Pavement Design
Link Introduction to Transportation Engineering Lecture 25 - Traffic Loading - I
Link Introduction to Transportation Engineering Lecture 26 - Traffic Loading - II
Link Introduction to Transportation Engineering Lecture 27 - Pavement Materials - I
Link Introduction to Transportation Engineering Lecture 28 - Pavement Materials - II
Link Introduction to Transportation Engineering Lecture 29 - Pavement Materials - III
Link Introduction to Transportation Engineering Lecture 30 - Pavement Materials - IV
Link Introduction to Transportation Engineering Lecture 31 - Pavement Materials - V
Link Introduction to Transportation Engineering Lecture 32 - Design of Bituminous Mixes - I
Link Introduction to Transportation Engineering Lecture 33 - Design of Bituminous Mixes - II
Link Introduction to Transportation Engineering Lecture 34 - Analysis of Flexible Pavements
Link Introduction to Transportation Engineering Lecture 35 - Analysis of Concrete Pavements
Link Introduction to Transportation Engineering Lecture 36 - Flexible Pavement Design Indian Roads Congress
Link Introduction to Transportation Engineering Lecture 37 - Flexible Pavement Design AASHTO Method - 1993
Link Introduction to Transportation Engineering Lecture 38 - Concrete Pavement Design Indian Congress Method
Link Introduction to Transportation Engineering Lecture 39 - Concrete Pavement Design PCA and AASHTO Methods
Link Introduction to Transportation Engineering Lecture 40 - Pavement Evaluation and Rehabilitation
Link Introduction to Transportation Engineering Lecture 41 - Overlay Design - IRC Method
Link Strength of Materials Lecture 1 - Introduction - Strength of Materials
Link Strength of Materials Lecture 2 - Analysis of Stress - I
Link Strength of Materials Lecture 3 - Analysis of Stress - II
Link Strength of Materials Lecture 4 - Analysis of Stress - III
Link Strength of Materials Lecture 5 - Analysis of Stress - IV
Link Strength of Materials Lecture 6 - Analysis of Stress - V
Link Strength of Materials Lecture 7 - Analysis of Strain - I
Link Strength of Materials Lecture 8 - Analysis of Strain - II
Link Strength of Materials Lecture 9 - Analysis of Strain - III
Link Strength of Materials Lecture 10 - Analysis of Strain - IV
Link Strength of Materials Lecture 11 - Analysis of Strain - V
Link Strength of Materials Lecture 12 - Analysis of Strain - VI
Link Strength of Materials Lecture 13 - Analysis of Strain - VII
Link Strength of Materials Lecture 14 - Analysis of Strain - VIII
Link Strength of Materials Lecture 15 - Application of Stress/Strain
Link Strength of Materials Lecture 16 - Application of Stress / Strain
Link Strength of Materials Lecture 17 - Application of Stress / Strain
Link Strength of Materials Lecture 18 - Torsion - I
Link Strength of Materials Lecture 19 - Torsion - II
Link Strength of Materials Lecture 20 - Torsion - III
Link Strength of Materials Lecture 21 - Torsion - IV
Link Strength of Materials Lecture 22 - Bending of Beams - I
Link Strength of Materials Lecture 23 - Bending of Beams - II
Link Strength of Materials Lecture 24 - Bending of Beams - III
Link Strength of Materials Lecture 25 - Bending of Beams - IV
Link Strength of Materials Lecture 26 - Stresses in Beams - I
Link Strength of Materials Lecture 27 - Stresses in Beams - II
Link Strength of Materials Lecture 28 - Stresses in Beams - III
Link Strength of Materials Lecture 29 - Stresses in Beams - IV
Link Strength of Materials Lecture 30 - Deflection of Beams - I
Link Strength of Materials Lecture 31 - Deflection of Beams - II
Link Strength of Materials Lecture 32 - Deflection of Beams - III
Link Strength of Materials Lecture 33 - Deflection of Beams - IV
Link Strength of Materials Lecture 34 - Combined Stresses - I
Link Strength of Materials Lecture 35 - Combined Stresses - II
Link Strength of Materials Lecture 36 - Combined Stresses - III
Link Strength of Materials Lecture 37 - Stability of Columns - I
Link Strength of Materials Lecture 38 - Stability of Columns - II
Link Strength of Materials Lecture 39 - Springs - I
Link Strength of Materials Lecture 40 - Springs - II
Link NOC:Probability Methods in Civil Engineering Lecture 1 - Random Events and Probability Concept
Link NOC:Probability Methods in Civil Engineering Lecture 2 - Set Theory and Set Operations
Link NOC:Probability Methods in Civil Engineering Lecture 3 - Axioms of Probability
Link NOC:Probability Methods in Civil Engineering Lecture 4 - Probability of Events
Link NOC:Probability Methods in Civil Engineering Lecture 5 - Concept and definition of Random variables
Link NOC:Probability Methods in Civil Engineering Lecture 6 - Probability distribution of random variables
Link NOC:Probability Methods in Civil Engineering Lecture 7 - CDF and Descriptors of Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 8 - Further Descriptors of Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 9 - Discrete Probability Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 10 - Probability Distribution of Continuous RVs
Link NOC:Probability Methods in Civil Engineering Lecture 11 - Probability Distribution of Continuous RVs (Continued.....1)
Link NOC:Probability Methods in Civil Engineering Lecture 12 - Probability Distribution of Continuous RVs (Continued.....2)
Link NOC:Probability Methods in Civil Engineering Lecture 13 - Functions of Single Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 14 - Functions of Different Variables - Different Methods
Link NOC:Probability Methods in Civil Engineering Lecture 15 - Functions of Random Variables : Different Methods (Continued...)
Link NOC:Probability Methods in Civil Engineering Lecture 16 - Probability Models using Normal Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 17 - Probability Models using Log Normal and Exponential Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 18 - Probability Models using Gamma and Extreme Value Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 19 - Probability Models using Discrete Probability Distributions
Link NOC:Probability Methods in Civil Engineering Lecture 20 - Sampling Distribution and Parameter Estimation
Link NOC:Probability Methods in Civil Engineering Lecture 21 - Sampling Distribution and Parameter Estimation (Continued...)
Link NOC:Probability Methods in Civil Engineering Lecture 22 - Hypothesis Testing
Link NOC:Probability Methods in Civil Engineering Lecture 23 - Goodness of Fit-Tests
Link NOC:Probability Methods in Civil Engineering Lecture 24 - Regression Analyses and Correlation
Link NOC:Probability Methods in Civil Engineering Lecture 25 - Regression Analyses and Correlation (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 1 - Visual Semantics for Visual Communication
Link NOC:Visual Semiotics for Visual Communication Lecture 2 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 3 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 4 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 5 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 6 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 7 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 8 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 9 - Introduction to Millimeter-Wave Technology
Link NOC:Visual Semiotics for Visual Communication Lecture 10 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 11 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 12 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 13 - Conceptual Model and Affordances
Link NOC:Visual Semiotics for Visual Communication Lecture 14 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 15 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 16 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 17 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 18 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 19 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 20 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Life Cycle Assessment Lecture 1 - Life Cycle Assessment - Introduction
Link NOC:Life Cycle Assessment Lecture 2 - Life Cycle Assessment - Introduction
Link NOC:Life Cycle Assessment Lecture 3 - LCA and Sustainability
Link NOC:Life Cycle Assessment Lecture 4 - LCA and Environmental Systems
Link NOC:Life Cycle Assessment Lecture 5 - LCA and Water, Food and Energy
Link NOC:Life Cycle Assessment Lecture 6 - RISK Assement and LCA Frameworks
Link NOC:Life Cycle Assessment Lecture 7 - RISK Assessment - Toxicology
Link NOC:Life Cycle Assessment Lecture 8 - RISK Assessment Methods
Link NOC:Life Cycle Assessment Lecture 9 - RISK Assessment Methods (Continued...)
Link NOC:Life Cycle Assessment Lecture 10 - Environmental Risk Assessment
Link NOC:Life Cycle Assessment Lecture 11 - Environmental Data Collection and LCA Methodology
Link NOC:Life Cycle Assessment Lecture 12 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 13 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 14 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 15 - LCA Methodology
Link NOC:Life Cycle Assessment Lecture 16 - LCA - A Detailed Methodology
Link NOC:Life Cycle Assessment Lecture 17 - LCA - A Detailed Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 18 - LCA Benefits and Drawbacks
Link NOC:Life Cycle Assessment Lecture 19 - History of LCA
Link NOC:Life Cycle Assessment Lecture 20 - The ISO Framework
Link NOC:Life Cycle Assessment Lecture 21 - Unit Process, Data and LCI Databases
Link NOC:Life Cycle Assessment Lecture 22 - Unit Process and System Boundary (Continued...)
Link NOC:Life Cycle Assessment Lecture 23 - Inventory Data and LCIA
Link NOC:Life Cycle Assessment Lecture 24 - LCIA
Link NOC:Life Cycle Assessment Lecture 25 - LCA Interpretation
Link NOC:Life Cycle Assessment Lecture 26 - ISO 14040
Link NOC:Life Cycle Assessment Lecture 27 - Key Points of a Good LCA and Example LCA
Link NOC:Life Cycle Assessment Lecture 28 - Chemical Release in Environment
Link NOC:Life Cycle Assessment Lecture 29 - Green Sustainable Materials
Link NOC:Life Cycle Assessment Lecture 30 - Green Sustainable Materials (Continued...)
Link NOC:Life Cycle Assessment Lecture 31 - Design for Sustainability
Link NOC:Life Cycle Assessment Lecture 32 - Design for Sustainability (Continued...)
Link NOC:Life Cycle Assessment Lecture 33 - Design for Sustainability (Continued...)
Link NOC:Life Cycle Assessment Lecture 34 - Sustainable Engineering Design Principles
Link NOC:Life Cycle Assessment Lecture 35 - Sustainable Engineering Design Principles (Continued...)
Link NOC:Life Cycle Assessment Lecture 36 - Summary and Case Studies
Link NOC:Life Cycle Assessment Lecture 37 - Summary and Case Studies (Continued...)
Link NOC:Life Cycle Assessment Lecture 38 - Summary and Case Studies (Continued...)
Link NOC:Life Cycle Assessment Lecture 39 - Tutorial I
Link NOC:Life Cycle Assessment Lecture 40 - Tutorial II
Link NOC:Integrated Waste Management for a Smart City Lecture 1 - Introduction
Link NOC:Integrated Waste Management for a Smart City Lecture 2 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 3 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 4 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 5 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 6 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 7 - Municipal Solid Waste Chracteristics and Quantities
Link NOC:Integrated Waste Management for a Smart City Lecture 8 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 9 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 10 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 11 - MSW Characteristics - Thermal Properties and Chemical Composition
Link NOC:Integrated Waste Management for a Smart City Lecture 12 - Chemical Analysis Procedure
Link NOC:Integrated Waste Management for a Smart City Lecture 13 - Chemical Analysis Procedure (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 14 - Working with Data and Statistical Methods
Link NOC:Integrated Waste Management for a Smart City Lecture 15 - Waste Management Rules 2016
Link NOC:Integrated Waste Management for a Smart City Lecture 16 - Waste Management Rules 2016 (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 17 - Swachh Bharat Mission and Smart Cities Program Overview
Link NOC:Integrated Waste Management for a Smart City Lecture 18 - Storage of Solid Waste
Link NOC:Integrated Waste Management for a Smart City Lecture 19 - MSW Collection System
Link NOC:Integrated Waste Management for a Smart City Lecture 20 - MSW Collection System (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 21 - Waste Collection and Transport
Link NOC:Integrated Waste Management for a Smart City Lecture 22 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 23 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 24 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 25 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 26 - Collection System
Link NOC:Integrated Waste Management for a Smart City Lecture 27 - Collection System (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 28 - Review of MSW Management in Proposed Smart Cities
Link NOC:Integrated Waste Management for a Smart City Lecture 29 - Biological Treatment of Waste
Link NOC:Integrated Waste Management for a Smart City Lecture 30 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 31 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 32 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 33 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 34 - Thermal Treatment
Link NOC:Integrated Waste Management for a Smart City Lecture 35 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 36 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 37 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 38 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 39 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 40 - Landfill Disposal
Link NOC:Integrated Waste Management for a Smart City Lecture 41 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 42 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 43 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 44 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 45 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 46 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 47 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 48 - Construction and Demolition Waste Management
Link NOC:Integrated Waste Management for a Smart City Lecture 49 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 50 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 51 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 52 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 53 - E-Waste Management
Link NOC:Integrated Waste Management for a Smart City Lecture 54 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 55 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 56 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 57 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 58 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 59 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 60 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 61 - Tutorial - I
Link NOC:Integrated Waste Management for a Smart City Lecture 62 - Tutorial - II
Link NOC:Computational Hydraulics Lecture 1 - Introduction to Computational Hydraulics
Link NOC:Computational Hydraulics Lecture 2 - Problem Definition and Governing Equations (GE)
Link NOC:Computational Hydraulics Lecture 3 - Classification of Problems based on Initial Condition (IC) and/or Boundary Conditions (BC)
Link NOC:Computational Hydraulics Lecture 4 - Classification of Differential Equations
Link NOC:Computational Hydraulics Lecture 5 - Numerical Methods : Overview
Link NOC:Computational Hydraulics Lecture 6 - Finite Difference Approximation
Link NOC:Computational Hydraulics Lecture 7 - Ordinary Differential Equation : IVP
Link NOC:Computational Hydraulics Lecture 8 - Ordinary Differential Equation : BVP
Link NOC:Computational Hydraulics Lecture 9 - Partial Differential Equation : BVP
Link NOC:Computational Hydraulics Lecture 10 - Partial Differential Equation : IBVP
Link NOC:Computational Hydraulics Lecture 11 - Partial Differential Equation : Numerical Stability of IBVP
Link NOC:Computational Hydraulics Lecture 12 - Partial Differential Equation : Numerical Stability of One Dimensional PDE
Link NOC:Computational Hydraulics Lecture 13 - Finite Volume Method - Overview
Link NOC:Computational Hydraulics Lecture 14 - Finite Volume Method - BVP
Link NOC:Computational Hydraulics Lecture 15 - Finite Volume Method - IBVP
Link NOC:Computational Hydraulics Lecture 16 - Finite Volume Method - Conservation Law
Link NOC:Computational Hydraulics Lecture 17 - Upwind Approach
Link NOC:Computational Hydraulics Lecture 18 - Godunov Approach
Link NOC:Computational Hydraulics Lecture 19
Link NOC:Computational Hydraulics Lecture 20
Link NOC:Computational Hydraulics Lecture 21 - Mesh-Tree Method : Polynomial Interpolation Method
Link NOC:Computational Hydraulics Lecture 22 - Mesh-Free Method : Moving Least Squares Method
Link NOC:Computational Hydraulics Lecture 23 - Mesh-Free Method : Space-Time Moving Least Squares Method
Link NOC:Computational Hydraulics Lecture 24 - Numerical Method : Matrix Structure and Scilab
Link NOC:Computational Hydraulics Lecture 25 - Algebraic Equation : Gauss Elimination Method
Link NOC:Computational Hydraulics Lecture 26 - Algebraic Equation : LU Decomposition Method
Link NOC:Computational Hydraulics Lecture 27 - Algebraic Equation : Tri Diagonal Matrix Method
Link NOC:Computational Hydraulics Lecture 28 - Algebraic Equation : Jacobis Method
Link NOC:Computational Hydraulics Lecture 29 - Algebraic Equation : Gauss - Seidel Method
Link NOC:Computational Hydraulics Lecture 30 - Algebraic Equation : Newton Raphson Method
Link NOC:Computational Hydraulics Lecture 31 - One-Dimensional Flow
Link NOC:Computational Hydraulics Lecture 32 - Steady Two-Dimensional Flow
Link NOC:Computational Hydraulics Lecture 33 - Unsteady Two-Dimensional Flow using Finite Difference Method
Link NOC:Computational Hydraulics Lecture 34
Link NOC:Computational Hydraulics Lecture 35
Link NOC:Computational Hydraulics Lecture 36
Link NOC:Computational Hydraulics Lecture 37
Link NOC:Computational Hydraulics Lecture 38
Link NOC:Computational Hydraulics Lecture 39
Link NOC:Computational Hydraulics Lecture 40 - Steady Channel Flow : Channel Network without reverse Flow
Link NOC:Computational Hydraulics Lecture 41 - Steady Channel Flow : Channel Network without reverse Flow (Continued...)
Link NOC:Computational Hydraulics Lecture 42 - Steady Channel Flow : Channel Network with reverse Flow
Link NOC:Computational Hydraulics Lecture 43 - Steady Channel Flow : Channel Network with reverse Flow (Continued...)
Link NOC:Computational Hydraulics Lecture 44
Link NOC:Computational Hydraulics Lecture 45
Link NOC:Computational Hydraulics Lecture 46
Link NOC:Computational Hydraulics Lecture 47
Link NOC:Computational Hydraulics Lecture 48
Link NOC:Computational Hydraulics Lecture 49 - Unsteady Flow in Pipes
Link NOC:Computational Hydraulics Lecture 50 - Surface Water and Ground Water Interaction
Link NOC:Computational Hydraulics Lecture 51 - Course Summary
Link NOC:Design of Steel Structures Lecture 1 - Introduction to Design of Steel Structures (Limit State Method)
Link NOC:Design of Steel Structures Lecture 2 - Steel as a Structural Material
Link NOC:Design of Steel Structures Lecture 3 - Limit State Design
Link NOC:Design of Steel Structures Lecture 4 - Introduction to Connections
Link NOC:Design of Steel Structures Lecture 5 - Introduction to Bolt Connections
Link NOC:Design of Steel Structures Lecture 6 - Design of Ordinary Black Bolts
Link NOC:Design of Steel Structures Lecture 7 - Worked out Examples on Design of Ordinary Black Bolts
Link NOC:Design of Steel Structures Lecture 8 - Design of High Strength Friction Grip Bolts
Link NOC:Design of Steel Structures Lecture 9 - Weld connection
Link NOC:Design of Steel Structures Lecture 10 - Design of Fillet Welds
Link NOC:Design of Steel Structures Lecture 11 - Design of Butt Welds
Link NOC:Design of Steel Structures Lecture 12 - Design of Plug and Slot Weld
Link NOC:Design of Steel Structures Lecture 13 - Eccentric Connection (Load Lying in Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 14 - Design of Eccentric Connection (Load Lying in Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 15 - Eccentric Connection (Load Lying in Plane of Welded Joint)
Link NOC:Design of Steel Structures Lecture 16 - Eccentric Connection (Load Lying Perpendicular to Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 17 - Design of Eccentric Connection (Load Lying Perpendicular to Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 18 - Eccentric Connection (Load Lying Perpendicular to Plane of Welded Joint)
Link NOC:Design of Steel Structures Lecture 19 - Tension Members and Net Area
Link NOC:Design of Steel Structures Lecture 20 - Calculation of Net Area in Tension Members
Link NOC:Design of Steel Structures Lecture 21 - Net area, Staggered bolt, Chain bolt, Staggered pitch, Deduction of area
Link NOC:Design of Steel Structures Lecture 22 - Strength Calculation of Tension Members
Link NOC:Design of Steel Structures Lecture 23 - Strength of Tension Members with Weld Connection
Link NOC:Design of Steel Structures Lecture 24 - Steps for Design of Tension Members
Link NOC:Design of Steel Structures Lecture 25 - Design Calculation for Tension Members
Link NOC:Design of Steel Structures Lecture 26 - Design of Gusset Plate
Link NOC:Design of Steel Structures Lecture 27 - Lug Angles
Link NOC:Design of Steel Structures Lecture 28 - Splices in Tension Members
Link NOC:Design of Steel Structures Lecture 29 - Compression Members
Link NOC:Design of Steel Structures Lecture 30 - Design Strength of Compression Members
Link NOC:Design of Steel Structures Lecture 31 - Compressive Strength
Link NOC:Design of Steel Structures Lecture 32 - Compressive Strength of Angle Struts
Link NOC:Design of Steel Structures Lecture 33 - Compressive Strength of Double Angles
Link NOC:Design of Steel Structures Lecture 34 - Design of Compression Members
Link NOC:Design of Steel Structures Lecture 35 - Design of Builtup Compression Members
Link NOC:Design of Steel Structures Lecture 36 - Lacing Systems
Link NOC:Design of Steel Structures Lecture 37 - Design of Lacing Systems
Link NOC:Design of Steel Structures Lecture 38 - Connection Design of Lacing Systems
Link NOC:Design of Steel Structures Lecture 39 - Design of Double Lacing System
Link NOC:Design of Steel Structures Lecture 40 - Batten Plates
Link NOC:Design of Steel Structures Lecture 41 - Design of Batten Plates using Bolt Connection
Link NOC:Design of Steel Structures Lecture 42 - Design of Batten Plates using Weld Connection
Link NOC:Design of Steel Structures Lecture 43 - Design of Column Splices
Link NOC:Design of Steel Structures Lecture 44 - Design of Column Splices due to Shear
Link NOC:Design of Steel Structures Lecture 45 - Introduction to Flexural Members: Beams
Link NOC:Design of Steel Structures Lecture 46 - Failure Modes of Flexural Members
Link NOC:Design of Steel Structures Lecture 47 - Laterally Supported Beams
Link NOC:Design of Steel Structures Lecture 48 - Design of Laterally Supported Beams
Link NOC:Design of Steel Structures Lecture 49 - Laterally Supported Beams with High Shear
Link NOC:Design of Steel Structures Lecture 50 - Laterally Unsupported Beams
Link NOC:Design of Steel Structures Lecture 51 - Strength Calculation of Laterally Unsupported Beams
Link NOC:Design of Steel Structures Lecture 52
Link NOC:Design of Steel Structures Lecture 53
Link NOC:Design of Steel Structures Lecture 54
Link NOC:Design of Steel Structures Lecture 55
Link NOC:Design of Steel Structures Lecture 56
Link NOC:Design of Steel Structures Lecture 57
Link NOC:Design of Steel Structures Lecture 58 - Worked out Example for Gantry Girder
Link NOC:Design of Steel Structures Lecture 59 - Slab Base
Link NOC:Design of Steel Structures Lecture 60 - Design of Slab Base
Link NOC:Design of Steel Structures Lecture 61 - Eccentrically Loaded Base Plate
Link NOC:Design of Steel Structures Lecture 62 - Gusset Base
Link NOC:Design of Steel Structures Lecture 63 - Design of Gusset Base
Link NOC:Reinforced Concrete Road Bridges Lecture 1 - Introdudction
Link NOC:Reinforced Concrete Road Bridges Lecture 2 - Classification of Bridges
Link NOC:Reinforced Concrete Road Bridges Lecture 3 - General Features of Design
Link NOC:Reinforced Concrete Road Bridges Lecture 4 - IRC Loading
Link NOC:Reinforced Concrete Road Bridges Lecture 5 - Design Codes
Link NOC:Reinforced Concrete Road Bridges Lecture 6 - Working Stress Method
Link NOC:Reinforced Concrete Road Bridges Lecture 7 - Limit State Method of Design as per IS456:2000
Link NOC:Reinforced Concrete Road Bridges Lecture 8 - Limit State Method of Design as per IRC 112:2011
Link NOC:Reinforced Concrete Road Bridges Lecture 9 - Design of Slab Bridges - Part I
Link NOC:Reinforced Concrete Road Bridges Lecture 10 - Design of Slab Bridges - Part II
Link NOC:Reinforced Concrete Road Bridges Lecture 11 - Design of Slab Bridges - Part III
Link NOC:Reinforced Concrete Road Bridges Lecture 12 - Design of Slab Bridges - Part IV
Link NOC:Reinforced Concrete Road Bridges Lecture 13 - Design of Slab Bridges - Part V
Link NOC:Reinforced Concrete Road Bridges Lecture 14 - Design of Slab Bridges - Part VI
Link NOC:Reinforced Concrete Road Bridges Lecture 15 - Abutment
Link NOC:Reinforced Concrete Road Bridges Lecture 16 - Design of RCC T Beam Bridge - Part I
Link NOC:Reinforced Concrete Road Bridges Lecture 17 - Design of RCC T Beam Bridge - Part II
Link NOC:Reinforced Concrete Road Bridges Lecture 18 - Design of RCC T Beam Bridge - Part III
Link NOC:Reinforced Concrete Road Bridges Lecture 19 - Design of RCC T Beam Bridge - Part IV
Link NOC:Reinforced Concrete Road Bridges Lecture 20 - Summary and Closure
Link NOC:Structural Analysis - I Lecture 1 - Introduction
Link NOC:Structural Analysis - I Lecture 2 - Idealization of Structures, Threats and Responses
Link NOC:Structural Analysis - I Lecture 3 - Static Equilibrium
Link NOC:Structural Analysis - I Lecture 4 - Determinate and Indeterminate Structures
Link NOC:Structural Analysis - I Lecture 5 - Review of Bending Moment and Shear Force Diagram of Beam
Link NOC:Structural Analysis - I Lecture 6 - Tutorial - I
Link NOC:Structural Analysis - I Lecture 7 - Analysis of Statically Determinate Structures: Truss
Link NOC:Structural Analysis - I Lecture 8 - Analysis of Truss: Method of Joints
Link NOC:Structural Analysis - I Lecture 9 - Analysis of Truss: Method of Joints (Continued...)
Link NOC:Structural Analysis - I Lecture 10 - Analysis of Truss: Method of Sections
Link NOC:Structural Analysis - I Lecture 11 - Analysis of Truss: Method of Sections (Continued...)
Link NOC:Structural Analysis - I Lecture 12 - Analysis of Statically Determinate Structures: Method of Virtual Work
Link NOC:Structural Analysis - I Lecture 13 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 14 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 15 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 16 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 17 - Deflection of Beams and Frames
Link NOC:Structural Analysis - I Lecture 18 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 19 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 20 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 21 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 22 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 23 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 24 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 25 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 26 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 27 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 28 - Influence Line Diagram and moving Loads
Link NOC:Structural Analysis - I Lecture 29 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 30 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 31 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 32 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 33 - Analysis of Statically Indeterminate Structures
Link NOC:Structural Analysis - I Lecture 34 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 35 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 36 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 37 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 38 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations
Link NOC:Structural Analysis - I Lecture 39 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 40 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 41 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 42 - Analysis of Statically Indeterminate Structures by Force Method
Link NOC:Structural Analysis - I Lecture 43 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 44 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 45 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 46 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 47 - Analysis of Indeterminate Structures by Displacement Methods
Link NOC:Structural Analysis - I Lecture 48 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 49 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 50 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 51 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 52 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 53 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 54 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 55 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 56 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 57 - Direct Stiffness Method
Link NOC:Structural Analysis - I Lecture 58 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 59 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 60 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 61 - Direct Stiffness Method (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 1 - Rock cycle
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 2 - Soil Formation
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 3 - Soil Classification
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 4 - Soil Classification (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 5 - Soil Classification (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 6 - Three-phase diagram
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 7 - Three-phase diagram (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 8 - Permeability and seepage
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 9 - Permeability and Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 10 - Permeability and seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 11 - Permeability And Seepage
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 12 - Permeability And Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 13 - Permeability And Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 14 - Compaction Of Soils
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 15 - Compaction Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 16 - Deep Dynamic Compaction
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 17 - Permeability/Compaction (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 18 - Effective Stress
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 19 - Effective Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 20 - Effective Stress Aplication
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 21 - Vertical Stress Distribution
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 22 - Boussinesq Point Load Formula
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 23 - Vertical Stress For Distributed Load
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 24 - Vertical Stress
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 25 - Vertical Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 26 - Vertical Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 27 - Shear Strength
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 28 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 29 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 30 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 31 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 32 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 33 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 34 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 35 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 36 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 37 - Compressibility Of Soils
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 38 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 39 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 40 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 41 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 42 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 43 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 44 - Compressibility And Settlement Of Soil
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 45 - Compressibility And Settlement (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 46 - Compressibility And Secondary Compression
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 47 - Earth Pressure
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 48 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 49 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 50 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 51 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 52 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 53 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 54 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 55 - Stability Of Slopes
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 56 - Stability Of Slopes (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 57 - Stability Of Slopes (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 58 - Slope Stability
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 59 - Slope Stabilty
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 60 - Concluding Remarks
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 61 - Live Session
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 1 - E-Waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 2 - E-waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 3 - E-waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 4 - E-waste Management Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 5 - E-waste Management Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 6 - Environmental and Public Health Issues
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 7 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 8 - E-waste Health Risk Assessment
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 9 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 10 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 11 - Recovery of Materials from E-Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 12 - Metal Recovery Process
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 13 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 14 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 15 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 16 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 17 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 18 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 19 - Electronics and LCA
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 20 - LCA applications for Electronics
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 21 - Tutorial-I
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 22 - Tutorial-II
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 1 - Introduction
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 2 - Mineral Deposits in Space and Time
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 3 - Mineral Deposits in Space and Time (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 4 - Mineral Deposits in Time, Attributes of Mineral Deposits and Theories of Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 5 - Classification of Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 6 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 7 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 8 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 9 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 10 - Sedimentary Processes and Resultant Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 11 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 12 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 13 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 14 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 15 - Morphology of Ore Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 16 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 17 - Hydrothermal Processe (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 18 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 19 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 20 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 21 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 22 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 23 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 24 - Hydrothermal Systems
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 25 - Hydrothermal Systems (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 26 - Hydrothermal Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 27 - Hydrothermal Processes and Resultant Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 28 - Hydrothermal Processes and Resultant Mineralization
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 29 - Indian Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 30 - Indian Mineral Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 31 - Indian Mineral Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 32 - Mineral Exploration
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 33 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 34 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 35 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 36 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 37 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 38 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 39 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 40 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 41 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 42 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 43 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 44 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 45 - Mineral Inventory Estimation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 46 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 47 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 48 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 49 - Geostatistical Method of Mineral Inventory Estimation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 50 - Geostatistical Method of Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 51 - Mineral Economics
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 52 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 53 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 54 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 55 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 56 - Environmental Impact of Mineral Resource Exploitation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 57 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 58 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 59 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 60 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 1 - Importance of Mineral Processing
Link NOC:Introduction to Mineral Processing Lecture 2 - Importance to Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 3 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 4 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 5 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 6 - Particle Characterization
Link NOC:Introduction to Mineral Processing Lecture 7 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 8 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 9 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 10 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 11 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 12 - Sampling
Link NOC:Introduction to Mineral Processing Lecture 13 - Sampling (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 14 - Plant Sampling
Link NOC:Introduction to Mineral Processing Lecture 15 - Plant Sampling (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 16 - Comminution
Link NOC:Introduction to Mineral Processing Lecture 17 - Comminution (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 18 - Comminution Fundamentals
Link NOC:Introduction to Mineral Processing Lecture 19 - Comminution Fundamentals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 20 - Crushers
Link NOC:Introduction to Mineral Processing Lecture 21 - Crushers (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 22 - Crushers (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 23 - Grinding
Link NOC:Introduction to Mineral Processing Lecture 24 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 25 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 26 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 27 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 28 - Industrial Screening
Link NOC:Introduction to Mineral Processing Lecture 29 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 30 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 31 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 32 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 33 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 34 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 35 - Movement of Solids in Fluids
Link NOC:Introduction to Mineral Processing Lecture 36 - Movement of Solids in Fluids (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 37 - Movement of Solids in Fluids (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 38 - Classifier
Link NOC:Introduction to Mineral Processing Lecture 39 - Classifier (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 40 - Hydrocyclone
Link NOC:Introduction to Mineral Processing Lecture 41 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 42 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 43 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 44 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 45 - Mass Balancing
Link NOC:Introduction to Mineral Processing Lecture 46 - Mass Balancing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 47 - Closed-Circuit Grinding
Link NOC:Introduction to Mineral Processing Lecture 48 - Gravity Concentration
Link NOC:Introduction to Mineral Processing Lecture 49 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 50 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 51 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 52 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 53 - Flotation
Link NOC:Introduction to Mineral Processing Lecture 54 - Flotation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 55 - Flotation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 56 - Flotation Chemicals
Link NOC:Introduction to Mineral Processing Lecture 57 - Flotation Chemicals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 58 - Flotation Chemicals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 59 - Flotation Machines
Link NOC:Introduction to Mineral Processing Lecture 60 - Flotation Machines (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 61 - Magnetic Separation
Link NOC:Introduction to Mineral Processing Lecture 62 - Electric Separation
Link NOC:Introduction to Mineral Processing Lecture 63 - Flow Sheets
Link NOC:Introduction to Mineral Processing Lecture 64 - Flow Sheets (Continued...)
Link NOC:Foundation Engineering Lecture 1 - Introduction
Link NOC:Foundation Engineering Lecture 2 - Introduction (Continued...)
Link NOC:Foundation Engineering Lecture 3 - Shear Strength
Link NOC:Foundation Engineering Lecture 4 - Soil Exploration - Boring
Link NOC:Foundation Engineering Lecture 5 - Standard Penetration Test
Link NOC:Foundation Engineering Lecture 6 - Standard Penetration Test and Cone Penetration Test
Link NOC:Foundation Engineering Lecture 7 - Cone Penetration Test and Other In-Situ Tests
Link NOC:Foundation Engineering Lecture 8 - Types of Samples
Link NOC:Foundation Engineering Lecture 9 - Geophysical Exploration - I
Link NOC:Foundation Engineering Lecture 10 - Geophysical Exploration - II
Link NOC:Foundation Engineering Lecture 11 - Shallow Foundation - Bearing Capacity I
Link NOC:Foundation Engineering Lecture 12 - Shallow Foundation - Bearing Capacity II
Link NOC:Foundation Engineering Lecture 13 - Shallow Foundation - Bearing Capacity III
Link NOC:Foundation Engineering Lecture 14 - Shallow Foundation - Bearing Capacity IV
Link NOC:Foundation Engineering Lecture 15 - Shallow Foundation - Bearing Capacity V
Link NOC:Foundation Engineering Lecture 16 - Shallow Foundation - Settlement I
Link NOC:Foundation Engineering Lecture 17 - Shallow Foundation - Settlement II
Link NOC:Foundation Engineering Lecture 18 - Shallow Foundation - Settlement III
Link NOC:Foundation Engineering Lecture 19 - Shallow Foundation - Settlement IV
Link NOC:Foundation Engineering Lecture 20 - Shallow Foundation - Settlement V
Link NOC:Foundation Engineering Lecture 21 - Shallow Foundation - Design I
Link NOC:Foundation Engineering Lecture 22 - Shallow Foundation - Design II
Link NOC:Foundation Engineering Lecture 23 - Shallow Foundation - Design III
Link NOC:Foundation Engineering Lecture 24 - Shallow Foundation - Design IV
Link NOC:Foundation Engineering Lecture 25 - Shallow Foundation - Design V
Link NOC:Foundation Engineering Lecture 26 - Shallow Foundation - Design VI
Link NOC:Foundation Engineering Lecture 27 - Pile Foundation - I
Link NOC:Foundation Engineering Lecture 28 - Pile Foundation - II
Link NOC:Foundation Engineering Lecture 29 - Pile Foundation - III
Link NOC:Foundation Engineering Lecture 30 - Pile Foundation - IV
Link NOC:Foundation Engineering Lecture 31 - Pile Foundation - V
Link NOC:Foundation Engineering Lecture 32 - Pile Foundation - VI
Link NOC:Foundation Engineering Lecture 33 - Pile Foundation - VII
Link NOC:Foundation Engineering Lecture 34 - Pile Foundation - VIII
Link NOC:Foundation Engineering Lecture 35 - Pile Foundation - IX
Link NOC:Foundation Engineering Lecture 36 - Pile Foundation - X
Link NOC:Foundation Engineering Lecture 37 - Pile Foundation - XI
Link NOC:Foundation Engineering Lecture 38 - Pile Foundation - XII
Link NOC:Foundation Engineering Lecture 39 - Pile Foundation - XIII
Link NOC:Foundation Engineering Lecture 40 - Pile Foundation - XIV
Link NOC:Foundation Engineering Lecture 41 - Earth Pressure - I
Link NOC:Foundation Engineering Lecture 42 - Earth Pressure - II
Link NOC:Foundation Engineering Lecture 43 - Earth Pressure - III
Link NOC:Foundation Engineering Lecture 44 - Earth Pressure - IV
Link NOC:Foundation Engineering Lecture 45 - Earth Pressure - V
Link NOC:Foundation Engineering Lecture 46 - Earth Pressure - VI
Link NOC:Foundation Engineering Lecture 47 - Earth Pressure - VII
Link NOC:Foundation Engineering Lecture 48 - Earth Pressure and Retaining Wall
Link NOC:Foundation Engineering Lecture 49 - Retaining Wall - II
Link NOC:Foundation Engineering Lecture 50 - Retaining Wall - III
Link NOC:Foundation Engineering Lecture 51 - Retaining Wall - IV
Link NOC:Foundation Engineering Lecture 52 - Retaining Wall - V and Sheet Piles - I
Link NOC:Foundation Engineering Lecture 53 - Sheet Piles - II
Link NOC:Foundation Engineering Lecture 54 - Sheet Piles - III
Link NOC:Foundation Engineering Lecture 55 - Sheet Piles - IV
Link NOC:Foundation Engineering Lecture 56 - Sheet Piles - V
Link NOC:Foundation Engineering Lecture 57 - Sheet Piles - VI
Link NOC:Foundation Engineering Lecture 58 - Sheet Piles and Braced Excavation
Link NOC:Foundation Engineering Lecture 59 - Braced Excavation and Underground Conduits
Link NOC:Foundation Engineering Lecture 60 - Underground Conduits - II
Link NOC:Theory of Elasticity Lecture 1 - Introduction
Link NOC:Theory of Elasticity Lecture 2 - Introduction to Tensor
Link NOC:Theory of Elasticity Lecture 3 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 4 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 5 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 6 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 7 - Concept of Stress and Strain
Link NOC:Theory of Elasticity Lecture 8 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 9 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 10 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 11 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 12 - Constitutive Relation - I
Link NOC:Theory of Elasticity Lecture 13 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 14 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 15 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 16 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 17 - Constitutive Relation - II
Link NOC:Theory of Elasticity Lecture 18 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 19 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 20 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 21 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 22 - Formulation of Boundary Value Problems
Link NOC:Theory of Elasticity Lecture 23 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 24 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 25 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 26 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 27 - Solution of Boundary Value Problems
Link NOC:Theory of Elasticity Lecture 28 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 29 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 30 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 31 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 32 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 33 - Problems in Flexure
Link NOC:Theory of Elasticity Lecture 34 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 35 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 36 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 37 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 38 - Boundary Value Problems in Elasticity
Link NOC:Theory of Elasticity Lecture 39 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 40 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 41 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 42 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 43 - Complex Variable Method
Link NOC:Theory of Elasticity Lecture 44 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 45 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 46 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 47 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 48 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 49 - Thermoelasticity
Link NOC:Theory of Elasticity Lecture 50 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 51 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 52 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 53 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 54 - Photo-Elasticity
Link NOC:Theory of Elasticity Lecture 55 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 56 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 57 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 58 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 59 - Introduction to Nonlinear Elasticity
Link NOC:Theory of Elasticity Lecture 60 - Closure
Link NOC:Wastewater Treatment and Recycling Lecture 1 - Course Introduction
Link NOC:Wastewater Treatment and Recycling Lecture 2 - Sources and Types of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 3 - Pollutants in Wastewater: Point and Non-point Sources
Link NOC:Wastewater Treatment and Recycling Lecture 4 - Wastewater Management: Concept of Treatment and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 5 - Wastewater Management: Issues and Challenges
Link NOC:Wastewater Treatment and Recycling Lecture 6 - Wastewater Generation and Quantity Estimation
Link NOC:Wastewater Treatment and Recycling Lecture 7 - Quantity Estimation of Sewage
Link NOC:Wastewater Treatment and Recycling Lecture 8 - Population Forecasting Methods
Link NOC:Wastewater Treatment and Recycling Lecture 9 - Quantity Estimation of Sewage Flow
Link NOC:Wastewater Treatment and Recycling Lecture 10 - Sewage Quantity Estimation: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 11 - Wastewater Characteristics: Quality Parameters
Link NOC:Wastewater Treatment and Recycling Lecture 12 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 13 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 14 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 15 - Wastewater Characteristics: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 16 - Fate and Transport of Contaminants Discharged in River
Link NOC:Wastewater Treatment and Recycling Lecture 17 - Effects on DO and BOD Natural Purification in Rivers: Effects on DO and BOD
Link NOC:Wastewater Treatment and Recycling Lecture 18 - BOD and Variations in streams Receiving Waste water
Link NOC:Wastewater Treatment and Recycling Lecture 19 - Natural Purification: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 20 - Engineered Treatment of Waste water:Concept of mass balance
Link NOC:Wastewater Treatment and Recycling Lecture 21 - Mass Balance: Application in Specific Cases
Link NOC:Wastewater Treatment and Recycling Lecture 22 - Mass Balance in Reactors: Application and Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 23 - Basic of Municipal Wastewater Treatment
Link NOC:Wastewater Treatment and Recycling Lecture 24 - Wastewater Treatment Units: Screening
Link NOC:Wastewater Treatment and Recycling Lecture 25 - Wastewater Treatment Units: Grit Removal and Equalization
Link NOC:Wastewater Treatment and Recycling Lecture 26 - Watsewater Treatment Units: Primary Sedimentation
Link NOC:Wastewater Treatment and Recycling Lecture 27 - Wastewater Treatment Units: Primary Sedimentation
Link NOC:Wastewater Treatment and Recycling Lecture 28 - Secondary Treatment Processes: Introduction to Biological Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 29 - Biological Treatment of Wastewater: Microbial Growth and its Kinetics
Link NOC:Wastewater Treatment and Recycling Lecture 30 - Biological Treatment of Wastewater: Microbial Growth Kinetics
Link NOC:Wastewater Treatment and Recycling Lecture 31 - Biological Treatment of Wastewater: Activated Sludge Process
Link NOC:Wastewater Treatment and Recycling Lecture 32 - Biological Treatment of Wastewater: ASP, TF and RCB
Link NOC:Wastewater Treatment and Recycling Lecture 33 - Secondary Treatment Processes: Introduction to Anaerobic Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 34 - Anaerobic Degradation Processes
Link NOC:Wastewater Treatment and Recycling Lecture 35 - Anaerobic Degradation: Characteristics and Applications
Link NOC:Wastewater Treatment and Recycling Lecture 36 - Anaerobic Treatment of Wastewater: UASB Reactor
Link NOC:Wastewater Treatment and Recycling Lecture 37 - Anaerobic Treatment of Wastewater: Other High Rate Anaerobic Processes
Link NOC:Wastewater Treatment and Recycling Lecture 38 - Introduction to Sludge Management
Link NOC:Wastewater Treatment and Recycling Lecture 39 - Wastewater Sludge: Quantity and Characteristics
Link NOC:Wastewater Treatment and Recycling Lecture 40 - Wastewater Sludge Processing and Treatment: Sludge Thickening
Link NOC:Wastewater Treatment and Recycling Lecture 41 - Wastewater Sludge Processing and Treatment: Sludge Stabilization and Conditioning
Link NOC:Wastewater Treatment and Recycling Lecture 42 - Wastewater Sludge Processing and Treatment: Dewatering, Hygienisation, Disposal/Reuse
Link NOC:Wastewater Treatment and Recycling Lecture 43 - Tertiary (Advanced) Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 44 - Tertiary Treatment: Nutrients Removal
Link NOC:Wastewater Treatment and Recycling Lecture 45 - Tertiary Treatment: Adsorption and Ion Exchange
Link NOC:Wastewater Treatment and Recycling Lecture 46 - Tertiary Treatment: Membrane Processes
Link NOC:Wastewater Treatment and Recycling Lecture 47 - Tertiary Treatment: Disinfection and Chemical Treatments
Link NOC:Wastewater Treatment and Recycling Lecture 48 - Wastewater Treatment Systems: Options and Conventional Approach
Link NOC:Wastewater Treatment and Recycling Lecture 49 - Wastewater Treatment Systems: Integrated Systems: Wetlands
Link NOC:Wastewater Treatment and Recycling Lecture 50 - Alternate Wastewater Treatment Systems: SBR and SBBR
Link NOC:Wastewater Treatment and Recycling Lecture 51 - Alternate Wastewater Treatment Systems: MBR and MBBR
Link NOC:Wastewater Treatment and Recycling Lecture 52 - Concept of Wastewater Reuse and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 53 - Wastewater Reuse and Recycling Opportunities
Link NOC:Wastewater Treatment and Recycling Lecture 54 - Wastewater Reuse and Recycling Potential and Requirements
Link NOC:Wastewater Treatment and Recycling Lecture 55 - Wastewater Reuse and Recycling Regulatory Guidelines
Link NOC:Wastewater Treatment and Recycling Lecture 56 - Wastewater Reuse and Recycling: Centralized Vs Decentralized Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 57 - Wastewater Reuse and Recycling: Challenges, Risks and Research Trends
Link NOC:Wastewater Treatment and Recycling Lecture 58 - Decision Making in Wastewater Reuse and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 59 - Public Acceptance for Recycled Water Use
Link NOC:Wastewater Treatment and Recycling Lecture 60 - Wastewater Reuse and Recycling: Global Practices and Case Studies
Link NOC:Wastewater Treatment and Recycling Lecture 61 - Course Summary
Link NOC:Wastewater Treatment and Recycling Lecture 62 - Course Summary (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 1 - Introduction
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 2 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 3 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 4 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 5 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 6 - Microthermometry
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 7 - Microthermometry: Principles
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 8 - Microthermometry: Principles (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 9 - Microthermometry: Principles (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 10 - Fluid Inclusion Petrography
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 11 - Aqueous Fluid Inclusions
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 12 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 13 - Response to Heating Experiment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 14 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 15 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 16 - Pure Carbonic Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 17 - Pure Carbonic Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 18 - Microthermometry of Aqueous-Carbonic Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 19 - Microthermometry of Aqueous-Carbonic Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 20 - Microthermometry of Aqueous-Carbonic Fluid Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 21 - Application of Fluid Inclusion to Ore Environment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 22 - Application of Fluid Inclusion Studies to Ore Environment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 23 - Application of fluid Inclusion to Ore Forming Environments
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 24 - Application of fluid Inclusion to Ore Forming Environments (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 25 - Application of fluid Inclusion to Ore Forming Environments (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 26 - Application of fluid Inclusion to Deformation, Metamorphism
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 27 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 28 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 29 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 30 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 31 - Analysis of Fluid Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 32 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 33 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 34 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 35 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 36 - Computer Software for Fluid Inclusion Data
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 37 - Computer Software for Fluid Inclusion Data (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 38 - Computer Software for Fluid Inclusion Data (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 39 - Review of the Course
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 40 - Review of the Course (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 1 - Introduction
Link NOC:Matrix Method of Structural Analysis Lecture 2 - Review of Structural Analysis - I
Link NOC:Matrix Method of Structural Analysis Lecture 3 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 4 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 5 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 6 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 7 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 8 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 9 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 10 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 11 - Matrix Algebra Review
Link NOC:Matrix Method of Structural Analysis Lecture 12 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 13 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 14 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 15 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 16 - Matrix Method of Analysis of Trusses
Link NOC:Matrix Method of Structural Analysis Lecture 17 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 18 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 19 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 20 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 21 - Matrix Method of Analysis: Beams
Link NOC:Matrix Method of Structural Analysis Lecture 22 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 23 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 24 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 25 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 26 - Matrix Method of Analysis: Frame (2D)
Link NOC:Matrix Method of Structural Analysis Lecture 27 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 28 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 29 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 30 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 31 - Computer Implementation
Link NOC:Matrix Method of Structural Analysis Lecture 32 - Computer Implementation (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 33 - Analysis of 3D Truss
Link NOC:Matrix Method of Structural Analysis Lecture 34 - Analysis of 3D Truss (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 35 - Analysis of Beam
Link NOC:Matrix Method of Structural Analysis Lecture 36 - Introduction to Finite Element Method
Link NOC:Matrix Method of Structural Analysis Lecture 37 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 38 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 39 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 40 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 41 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 42 - Introduction to Finite Element Method (Continued...)
Link NOC:Plastic Waste Management Lecture 1 - Plastics - What is Plastic
Link NOC:Plastic Waste Management Lecture 2 - Plastics - Types
Link NOC:Plastic Waste Management Lecture 3 - Plastics - Types (Continued...)
Link NOC:Plastic Waste Management Lecture 4 - Plastics - Uses and Global Statistics
Link NOC:Plastic Waste Management Lecture 5 - Plastics - Global Statistics
Link NOC:Plastic Waste Management Lecture 6 - Plastic Waste Sources
Link NOC:Plastic Waste Management Lecture 7 - Plastic Waste Sources (Continued...)
Link NOC:Plastic Waste Management Lecture 8 - Plastic Waste Sources and Production
Link NOC:Plastic Waste Management Lecture 9 - Global Sources
Link NOC:Plastic Waste Management Lecture 10 - Global and Indian data
Link NOC:Plastic Waste Management Lecture 11 - Plastic Waste Management Rules 2016 (India)
Link NOC:Plastic Waste Management Lecture 12 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 13 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 14 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 15 - Global Rules and Regulations
Link NOC:Plastic Waste Management Lecture 16 - Plastic Bans including China Sword Policy Implication on Global Plastic Waste Management
Link NOC:Plastic Waste Management Lecture 17 - Plastic Bans - Global Examples
Link NOC:Plastic Waste Management Lecture 18 - Plastic Bans - China Sword Policy
Link NOC:Plastic Waste Management Lecture 19 - Plastic Bans - China Sword Policy Impacts
Link NOC:Plastic Waste Management Lecture 20 - Plastic Bans - Impact on Global Plastic Waste Management
Link NOC:Plastic Waste Management Lecture 21 - Impact of Plastic Pollution on Marine Life
Link NOC:Plastic Waste Management Lecture 22 - Impact of Plastic Pollution on Marine Life (Continued...)
Link NOC:Plastic Waste Management Lecture 23 - Plastic Pollution Impacts on Marine and Wildlife
Link NOC:Plastic Waste Management Lecture 24 - Plastic Pollution : Health and Environmental Impact
Link NOC:Plastic Waste Management Lecture 25 - Plastic Pollution : Health and Environmental Impact (Continued...)
Link NOC:Plastic Waste Management Lecture 26 - Plastic Waste Management Practices : Recycling and Waste Plastics
Link NOC:Plastic Waste Management Lecture 27 - Plastic Waste Management : Mechanical and Feedstock Recycling
Link NOC:Plastic Waste Management Lecture 28 - Plastic Waste Management : Feedstock Recycling - Pyrolysis and Waste to Energy
Link NOC:Plastic Waste Management Lecture 29 - Plastic Waste Management : Landfilling, Other Applications
Link NOC:Plastic Waste Management Lecture 30 - Use of Waste Plastics in Road Construction
Link NOC:Plastic Waste Management Lecture 31 - Possible Alternate Materials to Plastics - Greener Alternatives
Link NOC:Plastic Waste Management Lecture 32 - Biodegradable Plastics
Link NOC:Plastic Waste Management Lecture 33 - Greener Plastic Products
Link NOC:Plastic Waste Management Lecture 34 - Biobased Plastic Products
Link NOC:Plastic Waste Management Lecture 35 - How to Quantify Something is Green
Link NOC:Plastic Waste Management Lecture 36 - Plastics Resource Recovery and Circular Economy
Link NOC:Plastic Waste Management Lecture 37 - Plastics Resource Recovery and Intro to Circular Economy
Link NOC:Plastic Waste Management Lecture 38 - Plastics and Circular Economy
Link NOC:Plastic Waste Management Lecture 39 - Plastics and Circular Economy - Case Studies
Link NOC:Plastic Waste Management Lecture 40 - Plastics and Circular Economy - Case Studies (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 1 - Quick Review of Soil Mechanics
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 2 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 3 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 4 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 5 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 6 - Foundation Engineering Introduction
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 7 - Foundation Engineering Introduction (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 8 - Foundation Engineering Introduction (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 9 - Shallow Foundation and Bearing Capacity
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 10 - Shallow Foundation and Bearing Capacity (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 11 - Shallow Foundation and Bearing Capacity (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 12 - Shallow Foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 13 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 14 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 15 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 16 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 17 - Settlement of Foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 18 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 19 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 20 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 21 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 22 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 23 - Geotechnical Investigation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 24 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 25 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 26 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 27 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 28 - Earth Pressure Theories
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 29 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 30 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 31 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 32 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 33 - Stability analysis of earth retaining wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 34 - Stability analysis of earth retaining wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 35 - Stability analysis of earth retaining wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 36 - Stability of earth retaining wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 37 - Pile foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 38 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 39 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 40 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 41 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 42 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 43 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 44 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 45 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 46 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 47 - Sheet pile wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 48 - Sheet pile wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 49 - Anchor bulkhead
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 50 - Anchor bulkhead (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 51 - Deep excavation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 52 - Deep excavation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 53 - Introduction to machine foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 54 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 55 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 56 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 57 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 58 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 59 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 60 - Summary
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 1 - Introduction
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 2 - Preliminaries
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 3 - Balance Equations Preliminaries - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 4 - Tutorial 1 - Balance Equations Preliminaries - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 5 - Balance Equations Preliminaries - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 6 - Tutorial 2 - Balance Equations Preliminaries - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 7 - Macroscopic Balances - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 8 - Macroscopic Balances - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 9 - Macroscopic Balances - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 10 - Tutorial 3 - Macroscopic Balances
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 11 - Tutorial 4 - Macroscopic Balances
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 12 - Tutorial 5 - Systems with chemical reactions
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 13 - Tutorial 6 - Material balance involving chemical reactions
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 14 - Tutorial 7 - Energy interactions in reacting systems Energy interactions in reacting systems
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 15 - Tutorial 8 - Energy interactions in reacting systems
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 16 - Solution of Macroscopic Balance Equations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 17 - Solution of Macroscopic Balance Equations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 18 - Tutorial 9 - Solution of Macroscopic Balance Equations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 19 - Tutorial 10 - Solution of Macroscopic Balance Equations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 20 - Mathematical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 21 - Mathematical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 22 - Numerical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 23 - Numerical evaluation of integrations in macroscopic balance equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 24 - Microscopic Balances - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 25 - Microscopic Balances - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 26 - Microscopic Balances - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 27 - Microscopic Balances - IV
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 28 - Microscopic Balances - V
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 29 - Microscopic Balances - VI
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 30 - Microscopic Balances - VII
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 31 - Microscopic Balance Illustrations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 32 - Microscopic Balance Illustrations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 33 - Microscopic Balance Illustrations - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 34 - Microscopic Balance Illustrations - IV
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 35 - Microscopic Balance Illustrations - V
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 36 - Matrix Techniques - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 37 - Matrix Techniques - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 38 - Regression
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 39 - Interpolation
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 40 - Illustration of Interpolation
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 41 - Illustration of Regression
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 42 - Tutorial on macroscopic energy balance
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 43 - Selective Mathematical Concepts in Transport Phenomena
Link NOC:Soil Structure Interaction Lecture 1 - Introduction
Link NOC:Soil Structure Interaction Lecture 2 - Bearing Capacity of Soil
Link NOC:Soil Structure Interaction Lecture 3 - Bearing Capacity of Soil (Continued...)
Link NOC:Soil Structure Interaction Lecture 4 - Bearing Capacity of Soil (Continued...)
Link NOC:Soil Structure Interaction Lecture 5 - Settlement of Shallow Foundation
Link NOC:Soil Structure Interaction Lecture 6 - Design of Shallow Foundation
Link NOC:Soil Structure Interaction Lecture 7 - Design of Shallow Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 8 - Design of Shallow Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 9 - Soil-Structure Interaction for Shallow Foundation : Concept of Subgrade Modulus
Link NOC:Soil Structure Interaction Lecture 10 - Soil-Structure Interaction for Shallow Foundation : Concept of Subgrade Modulus (Continued...)
Link NOC:Soil Structure Interaction Lecture 11 - Soil-Structure Interaction for Shallow Foundation : Concept of Subgrade Modulus (Continued...)
Link NOC:Soil Structure Interaction Lecture 12 - Soil-Structure Interaction for Shallow Foundation : Concept of Subgrade Modulus (Continued...)
Link NOC:Soil Structure Interaction Lecture 13 - Different Foundation Models
Link NOC:Soil Structure Interaction Lecture 14 - Different Foundation Models (Continued...)
Link NOC:Soil Structure Interaction Lecture 15 - Different Foundation Models (Continued...)
Link NOC:Soil Structure Interaction Lecture 16 - Different Foundation Models (Continued...)
Link NOC:Soil Structure Interaction Lecture 17 - Different Foundation Models (Continued...)
Link NOC:Soil Structure Interaction Lecture 18 - Beams on Elastic Foundation
Link NOC:Soil Structure Interaction Lecture 19 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 20 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 21 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 22 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 23 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 24 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 25 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 26 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 27 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 28 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 29 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 30 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 31 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 32 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 33 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 34 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 35 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 36 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 37 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 38 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 39 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 40 - Beams on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 41 - Plates on Elastic Foundation
Link NOC:Soil Structure Interaction Lecture 42 - Plates on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 43 - Plates on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 44 - Plates on Elastic Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 45 - Use of Finite Difference Method for Soil Structure Interaction Problems
Link NOC:Soil Structure Interaction Lecture 46 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 47 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 48 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 49 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 50 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 51 - Use of Finite Difference Method for Soil Structure Interaction Problems (Continued...)
Link NOC:Soil Structure Interaction Lecture 52 - Soil Structure Interaction for Pile Foundation
Link NOC:Soil Structure Interaction Lecture 53 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 54 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 55 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 56 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 57 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 58 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 59 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 60 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 61 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 62 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 63 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 64 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 65 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Soil Structure Interaction Lecture 66 - Soil Structure Interaction for Pile Foundation (Continued...)
Link NOC:Water Supply Engineering Lecture 1 - Backgroung and Course Introduction
Link NOC:Water Supply Engineering Lecture 2 - Water Sources and Availability
Link NOC:Water Supply Engineering Lecture 3 - Water Uses
Link NOC:Water Supply Engineering Lecture 4 - Water Supply Key Issues and Concerns
Link NOC:Water Supply Engineering Lecture 5 - Urban water services and water supply systems
Link NOC:Water Supply Engineering Lecture 6 - Urban water services and water supply systems
Link NOC:Water Supply Engineering Lecture 7 - Components of Water Demand
Link NOC:Water Supply Engineering Lecture 8 - Fluctuations in Water Demand
Link NOC:Water Supply Engineering Lecture 9 - Concept of Design Period and Design Population Need to Forecast Population Population Forecasting Methods
Link NOC:Water Supply Engineering Lecture 10 - Demand Forecasting and Design Capacities
Link NOC:Water Supply Engineering Lecture 11 - Water Sources and Collection of Water
Link NOC:Water Supply Engineering Lecture 12 - Surface Water Intakes
Link NOC:Water Supply Engineering Lecture 13 - Surface Water Intakes Systems
Link NOC:Water Supply Engineering Lecture 14 - Groundwater Intake
Link NOC:Water Supply Engineering Lecture 15 - Well Interferences, Well losses and Efficiency
Link NOC:Water Supply Engineering Lecture 16 - Raw water Conveyance and Pumping
Link NOC:Water Supply Engineering Lecture 17 - Practice Problems
Link NOC:Water Supply Engineering Lecture 18 - Raw Water Storage
Link NOC:Water Supply Engineering Lecture 19 - Treated Water Storage
Link NOC:Water Supply Engineering Lecture 20 - Placement, Design and Construction of Storage Reservoirs
Link NOC:Water Supply Engineering Lecture 21 - Practice Problems on Reservoir Capacity Estimation
Link NOC:Water Supply Engineering Lecture 22 - Water Quality and Water Pollutants
Link NOC:Water Supply Engineering Lecture 23 - Water Quality Parameters
Link NOC:Water Supply Engineering Lecture 24 - Philosophy of Water Treatment
Link NOC:Water Supply Engineering Lecture 25 - Water Treatment Units Screening and Aeration
Link NOC:Water Supply Engineering Lecture 26 - Water Treatment Units Sedimentation
Link NOC:Water Supply Engineering Lecture 27 - Practice Problems On Sedimentation
Link NOC:Water Supply Engineering Lecture 28 - Coagulation and Flocculation: Theory
Link NOC:Water Supply Engineering Lecture 29 - Coagulation and Flocculation: Selection and Application
Link NOC:Water Supply Engineering Lecture 30 - Coagulation and Flocculation: Design Operation and Process Control
Link NOC:Water Supply Engineering Lecture 31 - Filtration Theory and Slow Sand Filters
Link NOC:Water Supply Engineering Lecture 32 - Rapid Sand Filter: Filter Media and Components
Link NOC:Water Supply Engineering Lecture 33 - Rapid Sand Filters and Pressure Filters
Link NOC:Water Supply Engineering Lecture 34 - Practice Problems Coagulation Flocculation and Filtration
Link NOC:Water Supply Engineering Lecture 35 - Disinfection Basic
Link NOC:Water Supply Engineering Lecture 36 - Chlorination
Link NOC:Water Supply Engineering Lecture 37 - Other Disinfection Method: Ozone and UV Disinfection
Link NOC:Water Supply Engineering Lecture 38 - Sluge Management
Link NOC:Water Supply Engineering Lecture 39 - Advanced and Alternate Treatment Systems
Link NOC:Water Supply Engineering Lecture 40 - Advanced Oxidation Processes and Membrane Process
Link NOC:Water Supply Engineering Lecture 41 - Practice Problems
Link NOC:Water Supply Engineering Lecture 42 - Basic of Water Distribution System
Link NOC:Water Supply Engineering Lecture 43 - Water Distribution Networks
Link NOC:Water Supply Engineering Lecture 44 - Analysis of Water Distribution Networks
Link NOC:Water Supply Engineering Lecture 45 - Problems onPipe Flow and Water Distribution Network
Link NOC:Water Supply Engineering Lecture 46 - Water Losses in Water Distribution System
Link NOC:Water Supply Engineering Lecture 47 - Water Balance for Water Loss Assessment and Performance Indicators
Link NOC:Water Supply Engineering Lecture 48 - Water Loss Detection and Control
Link NOC:Water Supply Engineering Lecture 49 - Practice Problems on Water Audit and Water Loss Estimation
Link NOC:Water Supply Engineering Lecture 50 - Continuous (24*7) water supply systems
Link NOC:Water Supply Engineering Lecture 51 - District metered area (DMA) for zoning in water distribution networks
Link NOC:Water Supply Engineering Lecture 52 - Software for water distribution networks design and analysis
Link NOC:Water Supply Engineering Lecture 53 - Demonstration on EPANET and GEMS
Link NOC:Water Supply Engineering Lecture 54 - Concept of smart water supply systems
Link NOC:Water Supply Engineering Lecture 55 - Smart Metering and sensing devices
Link NOC:Water Supply Engineering Lecture 56 - IoT and Automation in Water Supply
Link NOC:Water Supply Engineering Lecture 57 - Example of Automation and Smart Water Supply Systems
Link NOC:Water Supply Engineering Lecture 58 - Economics of Water Supply Systems
Link NOC:Water Supply Engineering Lecture 59 - Capital and Operational Cost of Water Supply System
Link NOC:Water Supply Engineering Lecture 60 - Pricing Waters
Link NOC:Water Supply Engineering Lecture 61 - Pricing Waters (Continued...)
Link NOC:Water Supply Engineering Lecture 62 - Case studies and Practice Problem on Water Pricing
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 1 - Introduction to Geographic Information System
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 2 - Introduction to Coordinate System and Geographic Projections
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 3 - Geometric Transformation
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 4 - Vector Data Model
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 5 - Raster Data Model
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 6 - Method of Spatial Analysis
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 7 - Vector Data Analysis
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 8 - Vector Data Analysis (Continued...)
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 9 - Raster Data Analysis
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 10 - Raster Operations, Terrain Visualization and Classification
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 11 - Attribute Data Management and Data Exploration
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 12 - Spatial Interpolation
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 13 - Spatial Interpolation
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 14 - Network Analysis
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 15 - Service or Trade Area Analysis in an Urban Area
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 16 - Service or Trade Area Analysis in an Urban Area (Continued...)
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 17 - Landscape metrics and its applications
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 18 - Urban sprawl characterization using Landscape Metrics
Link NOC:Geo Spatial Analysis in Urban Planning Lecture 19 - Multi-Criteria Decision Analysis
Link NOC:Hydraulic Engineering Lecture 1 - Basics of fluid mechanics - I
Link NOC:Hydraulic Engineering Lecture 2 - Basics of fluid mechanics - I (Continued...)
Link NOC:Hydraulic Engineering Lecture 3 - Basics of fluid mechanics - I (Continued...)
Link NOC:Hydraulic Engineering Lecture 4 - Basics of fluid mechanics - I (Continued...)
Link NOC:Hydraulic Engineering Lecture 5 - Basics of fluid mechanics - I (Continued...)
Link NOC:Hydraulic Engineering Lecture 6 - Basics of fluid mechanics - II
Link NOC:Hydraulic Engineering Lecture 7 - Basics of fluid mechanics - II (Continued...)
Link NOC:Hydraulic Engineering Lecture 8 - Basics of fluid mechanics - II (Continued...)
Link NOC:Hydraulic Engineering Lecture 9 - Basics of fluid mechanics - II (Continued...)
Link NOC:Hydraulic Engineering Lecture 10 - Basics of fluid mechanics - II (Continued...)
Link NOC:Hydraulic Engineering Lecture 11 - Basics of fluid mechanics - II (Continued...)
Link NOC:Hydraulic Engineering Lecture 12 - Laminar and turbulent flow
Link NOC:Hydraulic Engineering Lecture 13 - Laminar and turbulent flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 14 - Laminar and turbulent flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 15 - Laminar and turbulent flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 16 - Laminar and turbulent flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 17 - Boundary Layer Theory
Link NOC:Hydraulic Engineering Lecture 18 - Boundary Layer Theory (Continued...)
Link NOC:Hydraulic Engineering Lecture 19 - Boundary Layer Theory (Continued...)
Link NOC:Hydraulic Engineering Lecture 20 - Boundary Layer Theory (Continued...)
Link NOC:Hydraulic Engineering Lecture 21 - Boundary Layer Theory (Continued...)
Link NOC:Hydraulic Engineering Lecture 22 - Boundary Layer Theory (Continued...)
Link NOC:Hydraulic Engineering Lecture 23 - Dimensional Analysis and Hydraulic Similitude
Link NOC:Hydraulic Engineering Lecture 24 - Dimensional Analysis and Hydraulic Similitude (Continued...)
Link NOC:Hydraulic Engineering Lecture 25 - Dimensional Analysis and Hydraulic Similitude (Continued...)
Link NOC:Hydraulic Engineering Lecture 26 - Dimensional Analysis and Hydraulic Similitude (Continued...)
Link NOC:Hydraulic Engineering Lecture 27 - Dimensional Analysis and Hydraulic Similitude (Continued...)
Link NOC:Hydraulic Engineering Lecture 28 - Introduction to Open Channel Flow and Uniform Flow
Link NOC:Hydraulic Engineering Lecture 29 - Introduction to Open Channel Flow and Uniform Flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 30 - Introduction to Open Channel Flow and Uniform Flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 31 - Introduction to Open Channel Flow and Uniform Flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 32 - Introduction to Open Channel Flow and Uniform Flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 33 - Introduction to Open Channel Flow and Uniform Flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 34 - Non-uniform flow and hydraulic jump
Link NOC:Hydraulic Engineering Lecture 35 - Non-uniform flow and hydraulic jump (Continued...)
Link NOC:Hydraulic Engineering Lecture 36 - Non-uniform flow and hydraulic jump (Continued...)
Link NOC:Hydraulic Engineering Lecture 37 - Non-uniform flow and hydraulic jump (Continued...)
Link NOC:Hydraulic Engineering Lecture 38 - Pipe flow
Link NOC:Hydraulic Engineering Lecture 39 - Pipe flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 40 - Pipe flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 41 - Pipe flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 42 - Pipe flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 43 - Pipe networks
Link NOC:Hydraulic Engineering Lecture 44 - Pipe networks (Continued...)
Link NOC:Hydraulic Engineering Lecture 45 - Pipe networks (Continued...)
Link NOC:Hydraulic Engineering Lecture 46 - Pipe networks (Continued...)
Link NOC:Hydraulic Engineering Lecture 47 - Pipe networks (Continued...)
Link NOC:Hydraulic Engineering Lecture 48 - Viscous fluid flow
Link NOC:Hydraulic Engineering Lecture 49 - Viscous fluid flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 50 - Viscous fluid flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 51 - Viscous fluid flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 52 - Viscous fluid flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 53 - Viscous fluid flow (Continued...)
Link NOC:Hydraulic Engineering Lecture 54 - Computational fluid dynamics
Link NOC:Hydraulic Engineering Lecture 55 - Computational fluid dynamics (Continued...)
Link NOC:Hydraulic Engineering Lecture 56 - Computational fluid dynamics (Continued...)
Link NOC:Hydraulic Engineering Lecture 57 - Computational fluid dynamics (Continued...)
Link NOC:Hydraulic Engineering Lecture 58 - Computational fluid dynamics (Continued...)
Link NOC:Hydraulic Engineering Lecture 59 - Introduction to wave mechanics
Link NOC:Hydraulic Engineering Lecture 60 - Introduction to wave mechanics (Continued...)
Link NOC:Hydraulic Engineering Lecture 61 - Introduction to wave mechanics (Continued...)
Link NOC:Hydraulic Engineering Lecture 62 - Introduction to wave mechanics (Continued...)
Link NOC:Hydraulic Engineering Lecture 63 - Introduction to wave mechanics (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 1 - Overview of urban transportation: Urbanization and Transport
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 2 - Overview of urban transportation: Key issues in urban transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 3 - Overview of urban transportation: Challenges in urban transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 4 - Overview of urban transportation: Travel demand modelling overview
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 5 - Overview of urban transportation: Vehicular Level of Service (LOS) overview
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 6 - Public Transportation: Introduction to public transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 7 - Public Transportation: Basic operating elements of public transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 8 - Public Transportation: Basic operating elements of public transportation (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 9 - Public Transportation: Bus Transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 10 - Public Transportation: Bus Transportation (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 11 - Public Transportation: Financing public transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 12 - Public Transportation: Transit marketing
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 13 - Public Transportation: Rail transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 14 - Public Transportation: Intermediate Public Transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 15 - Public Transportation: Measuring performance of transit systems
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 16 - Public Transportation: Advanced operation concepts of public transportation
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 17 - Public Transportation: Bus and Rail Transit Capacity
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 18 - Public Transportation: Bus and Rail Transit Capacity (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 19 - Public Transportation: Station Capacity
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 20 - Public Transportation: Transit Stop Location
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 21 - Non-motorised Transportation (NMT) Planning: Introduction to NMT Systems
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 22 - Non-motorised Transportation (NMT) Planning: Assessing existing NMT scenario
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 23 - Non-motorised Transportation (NMT) Planning: Data collection and analysis in NMT Planning
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 24 - Non-motorised Transportation (NMT) Planning: Complementarity and Selection of Interventions
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 25 - Non-motorised Transportation (NMT) Planning: Alternative Selection through Economic & Financial Analysis
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 26 - Non-Motorised Transportation (NMT) Planning: Basic NMT Characteristics
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 27 - Non-Motorised Transportation (NMT) Planning: Pedestrian Data Collection and Flow Characteristics
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 28 - Non-Motorised Transportation (NMT) Planning: Pedestrian Flow models
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 29 - Non-Motorised Transportation (NMT) Planning: Pedestrian flow characteristics on facilities
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 30 - Non-Motorised Transportation (NMT) Planning: Pedestrian Level of Service (PLOS) based on Flow models
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 31 - Non-Motorised Transportation (NMT) Planning: Other types of Pedestrian Level of Service (PLOS)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 32 - Non-Motorised Transportation (NMT) Planning: HCM 2010 Methodology for PLOS
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 33 - Non-Motorised Transportation (NMT) Planning: HCM 2010 Methodology for PLOS (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 34 - Non-Motorised Transportation (NMT) Planning: Bicycle Facilities and Level of Service (BLOS)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 35 - Non-Motorised Transportation (NMT) Planning: BLOS and Bicycle Compatibility Index (BCI)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 36 - Non-Motorised Transportation (NMT) Planning: NMT Design Principles
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 37 - Non-Motorised Transportation (NMT) Planning: Design of Pedestrian Infrastructure
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 38 - Non-Motorised Transportation (NMT) Planning: Design of Pedestrian Infrastructure (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 39 - Non-Motorised Transportation (NMT) Planning: Design of Cycling Infrastructure
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 40 - Non-Motorised Transportation (NMT) Planning: Design of Cycling Infrastructure (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 41 - Urban Transport and Sustainability: Travel Demand Management (TDM) overview
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 42 - Urban Transport and Sustainability: Push measures cases
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 43 - Urban Transport and Sustainability: Pull measure cases
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 44 - Urban Transport and Sustainability: Parking Studies
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 45 - Urban Transport and Sustainability: Transit Oriented Development (TOD)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 46 - Urban Transport and Sustainability: Introduction to Intelligent Transportation Systems (ITS)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 47 - Urban Transport and Sustainability: ITS components, applications and communication
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 48 - Urban Transport and Sustainability: ITS Architecture
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 49 - Urban Transport and Sustainability: Electronic Toll Collection (ETC)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 50 - Urban Transport and Sustainability: Public Bicycle Sharing (PBS) System with ITS
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 51 - Urban Transport and Sustainability: Multimodal transportation (MMT) environment
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 52 - Urban Transport and Sustainability: Multimodal Level of Service (MMLOS)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 53 - Urban Transport and Sustainability: Multimodal Level of Service (MMLOS) (Continued...)
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 54 - Urban Transport and Sustainability: Design of multimodal transfer facilities
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 55 - Urban Transport and Sustainability: Park & Ride (P&R) Facility Planning
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 56 - Urban Transport and Sustainability: An Introduction to Pedestrian Road Safety and associated Risk Factors
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 57 - Urban Transport and Sustainability: Road crash estimation and elements of predictive methods
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 58 - Urban Transport and Sustainability: Predicting Vehicle-Pedestrian and Vehicle-Bicycle conflicts
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 59 - Urban Transport and Sustainability: Environmental Concerns of Urban Transport
Link NOC:Introduction to Multimodal Urban Transportation Systems Lecture 60 - Urban Transport and Sustainability: Sustainable strategies for Urban Transportation
Link NOC:Advanced Foundation Engineering Lecture 1 - Introduction and Soil Exploration - I
Link NOC:Advanced Foundation Engineering Lecture 2 - Soil Exploration - II
Link NOC:Advanced Foundation Engineering Lecture 3 - Soil Exploration - III
Link NOC:Advanced Foundation Engineering Lecture 4 - Soil Exploration - IV
Link NOC:Advanced Foundation Engineering Lecture 5 - Soil Exploration - V
Link NOC:Advanced Foundation Engineering Lecture 6 - Soil Exploration - VI
Link NOC:Advanced Foundation Engineering Lecture 7 - Shallow Foundation : Bearing Capacity - I
Link NOC:Advanced Foundation Engineering Lecture 8 - Shallow Foundation : Bearing Capacity - II
Link NOC:Advanced Foundation Engineering Lecture 9 - Shallow Foundation : Bearing Capacity - III
Link NOC:Advanced Foundation Engineering Lecture 10 - Shallow Foundation : Bearing Capacity - IV
Link NOC:Advanced Foundation Engineering Lecture 11 - Shallow Foundation : Bearing Capacity - V
Link NOC:Advanced Foundation Engineering Lecture 12 - Shallow Foundation : Bearing Capacity - VI
Link NOC:Advanced Foundation Engineering Lecture 13 - Shallow Foundation : Bearing Capacity - VII
Link NOC:Advanced Foundation Engineering Lecture 14 - Shallow Foundation : Bearing Capacity - VIII
Link NOC:Advanced Foundation Engineering Lecture 15 - Shallow Foundation : Bearing Capacity - IX
Link NOC:Advanced Foundation Engineering Lecture 16 - Shallow Foundation : Bearing Capacity - X
Link NOC:Advanced Foundation Engineering Lecture 17 - Shallow Foundation : Bearing Capacity - XI
Link NOC:Advanced Foundation Engineering Lecture 18 - Shallow Foundation : Bearing Capacity - XII
Link NOC:Advanced Foundation Engineering Lecture 19 - Shallow Foundation : Bearing Capacity - XIII
Link NOC:Advanced Foundation Engineering Lecture 20 - Shallow Foundation : Bearing Capacity - XIV
Link NOC:Advanced Foundation Engineering Lecture 21 - Shallow Foundation : Bearing Capacity - XV
Link NOC:Advanced Foundation Engineering Lecture 22 - Shallow Foundation : Bearing Capacity - XVI
Link NOC:Advanced Foundation Engineering Lecture 23 - Shallow Foundation : Settlement - I
Link NOC:Advanced Foundation Engineering Lecture 24 - Shallow Foundation : Settlement - II
Link NOC:Advanced Foundation Engineering Lecture 25 - Shallow Foundation : Settlement - III
Link NOC:Advanced Foundation Engineering Lecture 26 - Shallow Foundation : Settlement - IV
Link NOC:Advanced Foundation Engineering Lecture 27 - Beams on Elastic Foundation - I
Link NOC:Advanced Foundation Engineering Lecture 28 - Beams on Elastic Foundation - II
Link NOC:Advanced Foundation Engineering Lecture 29 - Beams on Elastic Foundation - III
Link NOC:Advanced Foundation Engineering Lecture 30 - Beams on Elastic Foundation - IV
Link NOC:Advanced Foundation Engineering Lecture 31 - Beams on Elastic Foundation - V
Link NOC:Advanced Foundation Engineering Lecture 32 - Beams on Elastic Foundation - VI
Link NOC:Advanced Foundation Engineering Lecture 33 - Beams on Elastic Foundation - VII
Link NOC:Advanced Foundation Engineering Lecture 34 - Beams on Elastic Foundation - VIII
Link NOC:Advanced Foundation Engineering Lecture 35 - Beams on Elastic Foundation - IX
Link NOC:Advanced Foundation Engineering Lecture 36 - Design of Shallow Foundation - I
Link NOC:Advanced Foundation Engineering Lecture 37 - Design of Shallow Foundation - II
Link NOC:Advanced Foundation Engineering Lecture 38 - Design of Shallow Foundation - III
Link NOC:Advanced Foundation Engineering Lecture 39 - Design of Shallow Foundation - IV
Link NOC:Advanced Foundation Engineering Lecture 40 - Design of Shallow Foundation - V
Link NOC:Advanced Foundation Engineering Lecture 41 - Pile Foundation : Under Compressive Load - I
Link NOC:Advanced Foundation Engineering Lecture 42 - Pile Foundation : Under Compressive Load - II
Link NOC:Advanced Foundation Engineering Lecture 43 - Pile Foundation : Under Compressive Load - III
Link NOC:Advanced Foundation Engineering Lecture 44 - Pile Foundation : Under Compressive Load - IV
Link NOC:Advanced Foundation Engineering Lecture 45 - Pile Foundation : Under Compressive Load - V
Link NOC:Advanced Foundation Engineering Lecture 46 - Pile Foundation : Under Compressive Load - VI
Link NOC:Advanced Foundation Engineering Lecture 47 - Pile Foundation : Under Compressive Load - VII
Link NOC:Advanced Foundation Engineering Lecture 48 - Pile Foundation : Under Compressive Load - VIII
Link NOC:Advanced Foundation Engineering Lecture 49 - Pile Foundation : Under Compressive Load - IX
Link NOC:Advanced Foundation Engineering Lecture 50 - Pile Foundation : Under Compressive Load - X
Link NOC:Advanced Foundation Engineering Lecture 51 - Pile Foundation : Under Lateral Load and Uplift - I
Link NOC:Advanced Foundation Engineering Lecture 52 - Pile Foundation : Under Lateral Load and Uplift - II
Link NOC:Advanced Foundation Engineering Lecture 53 - Pile Foundation : Under Lateral Load and Uplift - III
Link NOC:Advanced Foundation Engineering Lecture 54 - Pile Foundation : Under Lateral Load and Uplift - IV
Link NOC:Advanced Foundation Engineering Lecture 55 - Pile Foundation : Under Lateral Load and Uplift - V
Link NOC:Advanced Foundation Engineering Lecture 56 - Pile Foundation : Under Lateral Load and Uplift - VI
Link NOC:Advanced Foundation Engineering Lecture 57 - Pile Foundation : Under Lateral Load and Uplift - VII
Link NOC:Advanced Foundation Engineering Lecture 58 - Pile Foundation : Under Lateral Load and Uplift - VIII
Link NOC:Advanced Foundation Engineering Lecture 59 - Pile Foundation : Under Lateral Load and Uplift - IX
Link NOC:Advanced Foundation Engineering Lecture 60 - Well Foundation - I
Link NOC:Advanced Foundation Engineering Lecture 61 - Well Foundation - II
Link NOC:Advanced Foundation Engineering Lecture 62 - Well Foundation - III
Link NOC:Advanced Foundation Engineering Lecture 63 - Well Foundation - IV
Link NOC:Advanced Foundation Engineering Lecture 64 - Well Foundation - V
Link NOC:Advanced Foundation Engineering Lecture 65 - Well Foundation - VI
Link NOC:Advanced Foundation Engineering Lecture 66 - Well Foundation - VII
Link NOC:Advanced Foundation Engineering Lecture 67 - Well Foundation - VIII
Link NOC:Advanced Foundation Engineering Lecture 68 - Well Foundation - IX
Link NOC:Advanced Foundation Engineering Lecture 69 - Foundations on Difficult Soils - I
Link NOC:Advanced Foundation Engineering Lecture 70 - Foundations on Difficult Soils - II
Link NOC:Urban Transport Systems Planning Lecture 1 - Urbanization, Urban Transportation and Transportation Demand
Link NOC:Urban Transport Systems Planning Lecture 2 - Travel Behaviour, Transportation Externalities and Present Scenario of Urban Transportation
Link NOC:Urban Transport Systems Planning Lecture 3 - Approaches for Mitigating Externalities, Need for Transportation Planning and Transport Planning Morphology
Link NOC:Urban Transport Systems Planning Lecture 4 - Transport Planning Morphology
Link NOC:Urban Transport Systems Planning Lecture 5 - Hierarchical Level of Urban Transport Planning and Interrelationship of Transport Problems and Models
Link NOC:Urban Transport Systems Planning Lecture 6 - Traditional Travel Demand Forecasting Process
Link NOC:Urban Transport Systems Planning Lecture 7 - Traditional Travel Demand Forecasting Process, Specification, Calibration, Validation and Forecasting
Link NOC:Urban Transport Systems Planning Lecture 8 - Information Needs for Travel Demand Forecasting: Study Area, Urban Activities, Transportation System
Link NOC:Urban Transport Systems Planning Lecture 9 - Information Needs for Travel Demand Forecasting: Travel Information
Link NOC:Urban Transport Systems Planning Lecture 10 - Data Collection and Techniques
Link NOC:Urban Transport Systems Planning Lecture 11 - Introduction and Basic Considerations of Trip Generation
Link NOC:Urban Transport Systems Planning Lecture 12 - Trip Classifications and Factors Affecting Trip Generation
Link NOC:Urban Transport Systems Planning Lecture 13 - Modelling Approaches and Step-Wise Approach of Multiple Regression Analysis
Link NOC:Urban Transport Systems Planning Lecture 14 - Step-Wise Approach of Multiple Regression Analysis and Examples
Link NOC:Urban Transport Systems Planning Lecture 15 - Examples, Common Mistakes and Zonal Based Models of Multiple Regression Analysis
Link NOC:Urban Transport Systems Planning Lecture 16 - Zonal and Household Based Regression Models
Link NOC:Urban Transport Systems Planning Lecture 17 - Cross Classification Analysis: Model Structure and Calibration
Link NOC:Urban Transport Systems Planning Lecture 18 - Cross Classification Analysis: Model Calibration
Link NOC:Urban Transport Systems Planning Lecture 19 - Cross Classification Analysis: Model Application, Advantages and Dis-Advantages
Link NOC:Urban Transport Systems Planning Lecture 20 - Matching Productions and Attractions; Stability of Trip Generation Models
Link NOC:Urban Transport Systems Planning Lecture 21 - Basic Considerations and Trip Distribution Matrices
Link NOC:Urban Transport Systems Planning Lecture 22 - Methods for Trip Distribution, Uniform Growth Factor Method and Average Growth Factor Method
Link NOC:Urban Transport Systems Planning Lecture 23 - Detroit Method and Fratar Model
Link NOC:Urban Transport Systems Planning Lecture 24 - Furness Method
Link NOC:Urban Transport Systems Planning Lecture 25 - Synthetic Methods, Measures of Travel Resistance and Gravity Model
Link NOC:Urban Transport Systems Planning Lecture 26 - Singly Constrained Gravity Model
Link NOC:Urban Transport Systems Planning Lecture 27 - Bureau of Public Roads Calibration Procedure
Link NOC:Urban Transport Systems Planning Lecture 28 - Doubly Constrained Gravity Model
Link NOC:Urban Transport Systems Planning Lecture 29 - Intervening Opportunities Model
Link NOC:Urban Transport Systems Planning Lecture 30 - Competing Opportunities Model and Linear Programming Approach
Link NOC:Urban Transport Systems Planning Lecture 31 - Factors Influencing Mode Choice and Aggregate Modal Split Models
Link NOC:Urban Transport Systems Planning Lecture 32 - Disaggregate Mode Choice Models - I
Link NOC:Urban Transport Systems Planning Lecture 33 - Disaggregate Mode Choice Models - II
Link NOC:Urban Transport Systems Planning Lecture 34 - Disaggregate Mode Choice Models - III
Link NOC:Urban Transport Systems Planning Lecture 35 - Disaggregate Mode Choice Models - IV
Link NOC:Urban Transport Systems Planning Lecture 36 - Disaggregate Mode Choice Models - V
Link NOC:Urban Transport Systems Planning Lecture 37 - Logit Choice Models - I
Link NOC:Urban Transport Systems Planning Lecture 38 - Logit Choice Models - II
Link NOC:Urban Transport Systems Planning Lecture 39 - Logit Choice Models - III
Link NOC:Urban Transport Systems Planning Lecture 40 - Logit Choice Models - IV
Link NOC:Urban Transport Systems Planning Lecture 41 - Introduction to Traffic Assignment
Link NOC:Urban Transport Systems Planning Lecture 42 - Network Algorithms - I
Link NOC:Urban Transport Systems Planning Lecture 43 - Network Algorithms - II
Link NOC:Urban Transport Systems Planning Lecture 44 - Network Algorithms - III
Link NOC:Urban Transport Systems Planning Lecture 45 - Static assignment models, User Equilibrium
Link NOC:Urban Transport Systems Planning Lecture 46 - User Equilibrium Assignment and System Optimum Assignment
Link NOC:Urban Transport Systems Planning Lecture 47 - Deterministic Traffic Assignment - I
Link NOC:Urban Transport Systems Planning Lecture 48 - Deterministic Traffic Assignment - II
Link NOC:Urban Transport Systems Planning Lecture 49 - Stochastic Traffic Assignment - I
Link NOC:Urban Transport Systems Planning Lecture 50 - Stochastic Traffic Assignment - II and Dynamic Traffic Assignment
Link NOC:Urban Transport Systems Planning Lecture 51 - Land Use and Transportation - I
Link NOC:Urban Transport Systems Planning Lecture 52 - Land Use and Transportation - II
Link NOC:Urban Transport Systems Planning Lecture 53 - Land Use and Transportation - III
Link NOC:Urban Transport Systems Planning Lecture 54 - Land Use and Transportation - IV
Link NOC:Urban Transport Systems Planning Lecture 55 - Urban Goods Movement - I
Link NOC:Urban Transport Systems Planning Lecture 56 - Urban Goods Movement - II
Link NOC:Urban Transport Systems Planning Lecture 57 - Urban Goods Movement - III
Link NOC:Urban Transport Systems Planning Lecture 58 - Urban Goods Movement - IV
Link NOC:Urban Transport Systems Planning Lecture 59 - Activity Based Modelling
Link NOC:Urban Transport Systems Planning Lecture 60 - Big Data, GIS and SDI
Link NOC:Structural Reliability Lecture 1 - Introduction - Part 1
Link NOC:Structural Reliability Lecture 2 - Introduction - Part 2
Link NOC:Structural Reliability Lecture 3 - Introduction - Part 3
Link NOC:Structural Reliability Lecture 4 - Introduction - Part 4
Link NOC:Structural Reliability Lecture 5 - Introduction - Part 5
Link NOC:Structural Reliability Lecture 6 - Introduction - Part 6
Link NOC:Structural Reliability Lecture 7 - Introduction - Part 7
Link NOC:Structural Reliability Lecture 8 - Introduction - Part 8
Link NOC:Structural Reliability Lecture 9 - Review of Probability Theory - Part 1
Link NOC:Structural Reliability Lecture 10 - Review of Probability Theory - Part 2
Link NOC:Structural Reliability Lecture 11 - Review of Probability Theory - Part 3
Link NOC:Structural Reliability Lecture 12 - Review of Probability Theory - Part 4
Link NOC:Structural Reliability Lecture 13 - Review of Probability Theory - Part 5
Link NOC:Structural Reliability Lecture 14 - Review of Probability Theory - Part 6
Link NOC:Structural Reliability Lecture 15 - Review of Probability Theory - Part 7
Link NOC:Structural Reliability Lecture 16 - Review of Probability Theory - Part 8
Link NOC:Structural Reliability Lecture 17 - Review of Probability Theory - Part 9
Link NOC:Structural Reliability Lecture 18 - Review of Random Variables - Part 1
Link NOC:Structural Reliability Lecture 19 - Review of Random Variables - Part 2
Link NOC:Structural Reliability Lecture 20 - Review of Random Variables - Part 3
Link NOC:Structural Reliability Lecture 21 - Review of Random Variables - Part 4
Link NOC:Structural Reliability Lecture 22 - Review of Random Variables - Part 5
Link NOC:Structural Reliability Lecture 23 - Review of Random Variables - Part 6
Link NOC:Structural Reliability Lecture 24 - Review of Random Variables - Part 7
Link NOC:Structural Reliability Lecture 25 - Review of Random Variables - Part 8
Link NOC:Structural Reliability Lecture 26 - Review of Random Variables - Part 9
Link NOC:Structural Reliability Lecture 27 - Review of Random Variables - Part 10
Link NOC:Structural Reliability Lecture 28 - Review of Random Variables - Part 11
Link NOC:Structural Reliability Lecture 29 - Review of Random Variables - Part 12
Link NOC:Structural Reliability Lecture 30 - Common Probability Distributions - Part 1
Link NOC:Structural Reliability Lecture 31 - Common Probability Distributions - Part 2
Link NOC:Structural Reliability Lecture 32 - Common Probability Distributions - Part 3
Link NOC:Structural Reliability Lecture 33 - Common Probability Distributions - Part 4
Link NOC:Structural Reliability Lecture 34 - Common Probability Distributions - Part 5
Link NOC:Structural Reliability Lecture 35 - Common Probability Distributions - Part 6
Link NOC:Structural Reliability Lecture 36 - Common Probability Distributions - Part 7
Link NOC:Structural Reliability Lecture 37 - Common Probability Distributions - Part 8
Link NOC:Structural Reliability Lecture 38 - Common Probability Distributions - Part 9
Link NOC:Structural Reliability Lecture 39 - Common Probability Distributions - Part 10
Link NOC:Structural Reliability Lecture 40 - Common Probability Distributions - Part 11
Link NOC:Structural Reliability Lecture 41 - Common Probability Distributions - Part 12
Link NOC:Structural Reliability Lecture 42 - Common Probability Distributions - Part 13
Link NOC:Structural Reliability Lecture 43 - Common Probability Distributions - Part 14
Link NOC:Structural Reliability Lecture 44 - Common Probability Distributions - Part 15
Link NOC:Structural Reliability Lecture 45 - Common Probability Distributions - Part 16
Link NOC:Structural Reliability Lecture 46 - Common Probability Distributions - Part 17
Link NOC:Structural Reliability Lecture 47 - Common Probability Distributions - Part 18
Link NOC:Structural Reliability Lecture 48 - Common Probability Distributions - Part 19
Link NOC:Structural Reliability Lecture 49 - Common Probability Distributions - Part 20
Link NOC:Structural Reliability Lecture 50 - Joint Probability Distributions - Part 1
Link NOC:Structural Reliability Lecture 51 - Joint Probability Distributions - Part 2
Link NOC:Structural Reliability Lecture 52 - Joint Probability Distributions - Part 3
Link NOC:Structural Reliability Lecture 53 - Joint Probability Distributions - Part 4
Link NOC:Structural Reliability Lecture 54 - Joint Probability Distributions - Part 5
Link NOC:Structural Reliability Lecture 55 - Joint Probability Distributions - Part 6
Link NOC:Structural Reliability Lecture 56 - Joint Probability Distributions - Part 7
Link NOC:Structural Reliability Lecture 57 - Joint Probability Distributions - Part 8
Link NOC:Structural Reliability Lecture 58 - Joint Probability Distributions - Part 9
Link NOC:Structural Reliability Lecture 59 - Joint Probability Distributions - Part 10
Link NOC:Structural Reliability Lecture 60 - Joint Probability Distributions - Part 11
Link NOC:Structural Reliability Lecture 61 - Joint Probability Distributions - Part 12
Link NOC:Structural Reliability Lecture 62 - Joint Probability Distributions - Part 13
Link NOC:Structural Reliability Lecture 63 - Joint Probability Distributions - Part 14
Link NOC:Structural Reliability Lecture 64 - Joint Probability Distributions - Part 15
Link NOC:Structural Reliability Lecture 65 - Joint Probability Distributions - Part 16
Link NOC:Structural Reliability Lecture 66 - Joint Probability Distributions - Part 17
Link NOC:Structural Reliability Lecture 67 - Joint Probability Distributions - Part 18
Link NOC:Structural Reliability Lecture 68 - Joint Probability Distributions - Part 19
Link NOC:Structural Reliability Lecture 69 - Monte Carlo Simlulations - Part 1
Link NOC:Structural Reliability Lecture 70 - Monte Carlo Simlulations - Part 2
Link NOC:Structural Reliability Lecture 71 - Monte Carlo Simlulations - Part 3
Link NOC:Structural Reliability Lecture 72 - Monte Carlo Simlulations - Part 4
Link NOC:Structural Reliability Lecture 73 - Monte Carlo Simlulations - Part 5
Link NOC:Structural Reliability Lecture 74 - Monte Carlo Simlulations - Part 6
Link NOC:Structural Reliability Lecture 75 - Monte Carlo Simlulations - Part 7
Link NOC:Structural Reliability Lecture 76 - Monte Carlo Simlulations - Part 8
Link NOC:Structural Reliability Lecture 77 - Monte Carlo Simlulations - Part 9
Link NOC:Structural Reliability Lecture 78 - Monte Carlo Simlulations - Part 10
Link NOC:Structural Reliability Lecture 79 - Monte Carlo Simlulations - Part 11
Link NOC:Structural Reliability Lecture 80 - Monte Carlo Simlulations - Part 12
Link NOC:Structural Reliability Lecture 81 - Monte Carlo Simlulations - Part 13
Link NOC:Structural Reliability Lecture 82 - Monte Carlo Simlulations - Part 14
Link NOC:Structural Reliability Lecture 83 - History Definition and Scope - Part 1
Link NOC:Structural Reliability Lecture 84 - History Definition and Scope - Part 2
Link NOC:Structural Reliability Lecture 85 - History Definition and Scope - Part 3
Link NOC:Structural Reliability Lecture 86 - History Definition and Scope - Part 4
Link NOC:Structural Reliability Lecture 87 - History Definition and Scope - Part 5
Link NOC:Structural Reliability Lecture 88 - History Definition and Scope - Part 6
Link NOC:Structural Reliability Lecture 89 - Reliability Problem Formulatio - Part 1
Link NOC:Structural Reliability Lecture 90 - Reliability Problem Formulatio - Part 2
Link NOC:Structural Reliability Lecture 91 - Reliability Problem Formulatio - Part 3
Link NOC:Structural Reliability Lecture 92 - Reliability Problem Formulatio - Part 4
Link NOC:Structural Reliability Lecture 93 - Reliability Problem Formulatio - Part 5
Link NOC:Structural Reliability Lecture 94 - Reliability Problem Formulatio - Part 6
Link NOC:Structural Reliability Lecture 95 - Reliability Problem Formulatio - Part 7
Link NOC:Structural Reliability Lecture 96 - Reliability Problem Formulatio - Part 8
Link NOC:Structural Reliability Lecture 97 - Representation of systems - Part 1
Link NOC:Structural Reliability Lecture 98 - Representation of systems - Part 2
Link NOC:Structural Reliability Lecture 99 - Representation of systems - Part 3
Link NOC:Structural Reliability Lecture 100 - Representation of systems - Part 4
Link NOC:Structural Reliability Lecture 101 - Representation of systems - Part 5
Link NOC:Structural Reliability Lecture 102 - Representation of systems - Part 6
Link NOC:Structural Reliability Lecture 103 - Representation of systems - Part 7
Link NOC:Structural Reliability Lecture 104 - Representation of systems - Part 8
Link NOC:Structural Reliability Lecture 105 - Representation of systems - Part 9
Link NOC:Structural Reliability Lecture 106 - Representation of systems - Part 10
Link NOC:Structural Reliability Lecture 107 - Representation of systems - Part 11
Link NOC:Structural Reliability Lecture 108 - Representation of systems - Part 12
Link NOC:Structural Reliability Lecture 109 - Representation of systems - Part 13
Link NOC:Structural Reliability Lecture 110 - Representation of systems - Part 14
Link NOC:Structural Reliability Lecture 111 - Representation of systems - Part 15
Link NOC:Structural Reliability Lecture 112 - Representation of systems - Part 16
Link NOC:Structural Reliability Lecture 113 - Representation of systems - Part 17
Link NOC:Structural Reliability Lecture 114 - Representation of systems - Part 18
Link NOC:Structural Reliability Lecture 115 - Representation of systems - Part 19
Link NOC:Structural Reliability Lecture 116 - Representation of systems - Part 20
Link NOC:Structural Reliability Lecture 117 - Representation of systems - Part 21
Link NOC:Structural Reliability Lecture 118 - Representation of systems - Part 22
Link NOC:Structural Reliability Lecture 119 - Representation of systems - Part 23
Link NOC:Structural Reliability Lecture 120 - Time Dependent Component Reliability - Part 1
Link NOC:Structural Reliability Lecture 121 - Time Dependent Component Reliability - Part 2
Link NOC:Structural Reliability Lecture 122 - Component Reliability - Time Dependent - Part 1
Link NOC:Structural Reliability Lecture 123 - Component Reliability - Time Dependent - Part 2
Link NOC:Structural Reliability Lecture 124 - Component Reliability - Time Dependent - Part 3
Link NOC:Structural Reliability Lecture 125 - Component Reliability - Time Dependent - Part 4
Link NOC:Structural Reliability Lecture 126 - Component Reliability - Time Dependent - Part 5
Link NOC:Structural Reliability Lecture 127 - Component Reliability - Time Dependent - Part 6
Link NOC:Structural Reliability Lecture 128 - Component Reliability - Time Dependent - Part 7
Link NOC:Structural Reliability Lecture 129 - Component Reliability - Time Dependent - Part 8
Link NOC:Structural Reliability Lecture 130 - Component Reliability - Time Defined - Part 9
Link NOC:Structural Reliability Lecture 131 - Component Reliability - Time Defined - Part 10
Link NOC:Structural Reliability Lecture 132 - Component Reliability - Time Defined - Part 11
Link NOC:Structural Reliability Lecture 133 - Component Reliability - Time Defined - Part 12
Link NOC:Structural Reliability Lecture 134 - Component Reliability - Time Defined - Part 13
Link NOC:Structural Reliability Lecture 135 - Component Reliability - Time Defined - Part 14
Link NOC:Structural Reliability Lecture 136 - Component Reliability - Time Defined - Part 15
Link NOC:Structural Reliability Lecture 137 - Component Reliability - Time Defined - Part 16
Link NOC:Structural Reliability Lecture 138 - Component Reliability - Time Defined - Part 17
Link NOC:Structural Reliability Lecture 139 - Component Reliability - Time Defined - Part 18
Link NOC:Structural Reliability Lecture 140 - Component Reliability - Time Defined - Part 19
Link NOC:Structural Reliability Lecture 141 - Component Reliability - Time Defined - Part 20
Link NOC:Structural Reliability Lecture 142 - Component Reliability - Time Defined - Part 21
Link NOC:Structural Reliability Lecture 143 - Component Reliability - Time Defined - Part 22
Link NOC:Structural Reliability Lecture 144 - Component Reliability - Time Defined - Part 23
Link NOC:Structural Reliability Lecture 145 - System Reliability - Time Defined - Part 1
Link NOC:Structural Reliability Lecture 146 - System Reliability - Time Defined - Part 2
Link NOC:Structural Reliability Lecture 147 - System Reliability - Time Defined - Part 3
Link NOC:Structural Reliability Lecture 148 - System Reliability - Time Defined - Part 4
Link NOC:Structural Reliability Lecture 149 - System Reliability - Time Defined - Part 5
Link NOC:Structural Reliability Lecture 150 - System Reliability - Time Defined - Part 6
Link NOC:Structural Reliability Lecture 151 - System Reliability - Time Defined - Part 7
Link NOC:Structural Reliability Lecture 152 - System Reliability - Time Defined - Part 8
Link NOC:Structural Reliability Lecture 153 - Capacity Demand Component Reliability - Part 1
Link NOC:Structural Reliability Lecture 154 - Capacity Demand Component Reliability - Part 2
Link NOC:Structural Reliability Lecture 155 - Capacity Demand Component Reliability - Part 3
Link NOC:Structural Reliability Lecture 156 - Capacity Demand Component Reliability - Part 4
Link NOC:Structural Reliability Lecture 157 - Capacity Demand Component Reliability - Part 5
Link NOC:Structural Reliability Lecture 158 - Capacity Demand Component Reliability - Part 6
Link NOC:Structural Reliability Lecture 159 - Capacity Demand Component Reliability - Part 7
Link NOC:Structural Reliability Lecture 160 - Capacity Demand Component Reliability - Part 8
Link NOC:Structural Reliability Lecture 161 - Capacity Demand Component Reliability - Part 9
Link NOC:Structural Reliability Lecture 162 - Capacity Demand Component Reliability - Part 10
Link NOC:Structural Reliability Lecture 163 - Capacity Demand Component Reliability - Part 11
Link NOC:Structural Reliability Lecture 164 - Capacity Demand Component Reliability - Part 12
Link NOC:Structural Reliability Lecture 165 - Capacity Demand Component Reliability - Part 13
Link NOC:Structural Reliability Lecture 166 - Capacity Demand Component Reliability - Part 14
Link NOC:Structural Reliability Lecture 167 - Capacity Demand Component Reliability - Part 15
Link NOC:Structural Reliability Lecture 168 - Capacity Demand Component Reliability - Part 16
Link NOC:Structural Reliability Lecture 169 - Capacity Demand Component Reliability - Part 17
Link NOC:Structural Reliability Lecture 170 - Capacity Demand Component Reliability - Part 18
Link NOC:Structural Reliability Lecture 171 - Capacity Demand Component Reliability - Part 19
Link NOC:Structural Reliability Lecture 172 - Capacity Demand Component Reliability - Part 20
Link NOC:Structural Reliability Lecture 173 - Capacity Demand Component Reliability - Part 21
Link NOC:Structural Reliability Lecture 174 - Capacity Demand Component Reliability - Part 22
Link NOC:Structural Reliability Lecture 175 - Capacity Demand Component Reliability - Part 23
Link NOC:Structural Reliability Lecture 176 - Capacity Demand Component Reliability - Part 24
Link NOC:Structural Reliability Lecture 177 - Capacity Demand Component Reliability - Part 25
Link NOC:Structural Reliability Lecture 178 - Capacity Demand Component Reliability - Part 26
Link NOC:Structural Reliability Lecture 179 - Capacity Demand Component Reliability - Part 27
Link NOC:Structural Reliability Lecture 180 - Capacity Demand Component Reliability - Part 28
Link NOC:Structural Reliability Lecture 181 - Capacity Demand Component Reliability - Part 29
Link NOC:Structural Reliability Lecture 182 - Capacity Demand Component Reliability - Part 30
Link NOC:Structural Reliability Lecture 183 - Capacity Demand Component Reliability - Part 31
Link NOC:Structural Reliability Lecture 184 - Capacity Demand Component Reliability - Part 32
Link NOC:Structural Reliability Lecture 185 - Capacity Demand Component Reliability - Part 33
Link NOC:Structural Reliability Lecture 186 - Capacity Demand Component Reliability - Part 34
Link NOC:Structural Reliability Lecture 187 - Capacity Demand Component Reliability - Part 35
Link NOC:Structural Reliability Lecture 188 - Capacity Demand Component Reliability - Part 36
Link NOC:Structural Reliability Lecture 189 - Capacity Demand Component Reliability - Part 37
Link NOC:Structural Reliability Lecture 190 - Capacity Demand Component Reliability - Part 38
Link NOC:Structural Reliability Lecture 191 - Capacity Demand Component Reliability - Part 39
Link NOC:Structural Reliability Lecture 192 - Capacity Demand Time Component Reliability - Part 1
Link NOC:Structural Reliability Lecture 193 - Capacity Demand Time Component Reliability - Part 2
Link NOC:Structural Reliability Lecture 194 - Capacity Demand Time Component Reliability - Part 3
Link NOC:Structural Reliability Lecture 195 - Capacity Demand Time Component Reliability - Part 4
Link NOC:Structural Reliability Lecture 196 - Capacity Demand Time Component Reliability - Part 5
Link NOC:Structural Reliability Lecture 197 - Capacity Demand Time Component Reliability - Part 6
Link NOC:Structural Reliability Lecture 198 - Capacity Demand Time Component Reliability - Part 7
Link NOC:Structural Reliability Lecture 199 - Capacity Demand Time Component Reliability - Part 8
Link NOC:Structural Reliability Lecture 200 - Capacity Demand Time Component Reliability - Part 9
Link NOC:Structural Reliability Lecture 201 - Capacity Demand Time Component Reliability - Part 10
Link NOC:Structural Reliability Lecture 202 - Capacity Demand Time Component Reliability - Part 11
Link NOC:Structural Reliability Lecture 203 - Capacity Demand Time Component Reliability - Part 12
Link NOC:Structural Reliability Lecture 204 - Capacity Demand Time Component Reliability - Part 13
Link NOC:Structural Reliability Lecture 205 - Capacity Demand Time Component Reliability - Part 14
Link NOC:Structural Reliability Lecture 206 - Capacity Demand Time Component Reliability - Part 15
Link NOC:Structural Reliability Lecture 207 - Capacity Demand Time Component Reliability - Part 16
Link NOC:Structural Reliability Lecture 208 - Capacity Demand Time Component Reliability - Part 17
Link NOC:Structural Reliability Lecture 209 - Capacity Demand Time Component Reliability - Part 18
Link NOC:Structural Reliability Lecture 210 - Capacity Demand Systems Reliability - Part 1
Link NOC:Structural Reliability Lecture 211 - Capacity Demand Systems Reliability - Part 2
Link NOC:Structural Reliability Lecture 212 - Capacity Demand Systems Reliability - Part 3
Link NOC:Structural Reliability Lecture 213 - Capacity Demand Systems Reliability - Part 4
Link NOC:Structural Reliability Lecture 214 - Capacity Demand Systems Reliability - Part 5
Link NOC:Structural Reliability Lecture 215 - Capacity Demand Systems Reliability - Part 6
Link NOC:Structural Reliability Lecture 216 - Capacity Demand Systems Reliability - Part 7
Link NOC:Structural Reliability Lecture 217 - Capacity Demand Systems Reliability - Part 8
Link NOC:Structural Reliability Lecture 218 - Capacity Demand Systems Reliability - Part 9
Link NOC:Structural Reliability Lecture 219 - Capacity Demand Systems Reliability - Part 10
Link NOC:Structural Reliability Lecture 220 - Capacity Demand Systems Reliability - Part 11
Link NOC:Structural Reliability Lecture 221 - Capacity Demand Systems Reliability - Part 12
Link NOC:Structural Reliability Lecture 222 - Capacity Demand Systems Reliability - Part 13
Link NOC:Structural Reliability Lecture 223 - Capacity Demand Systems Reliability - Part 14
Link NOC:Structural Reliability Lecture 224 - Capacity Demand Systems Reliability - Part 15
Link NOC:Structural Reliability Lecture 225 - Reliability Based Design Codes - Part 1
Link NOC:Structural Reliability Lecture 226 - Reliability Based Design Codes - Part 2
Link NOC:Structural Reliability Lecture 227 - Reliability Based Design Codes - Part 3
Link NOC:Structural Reliability Lecture 228 - Reliability Based Design Codes - Part 4
Link NOC:Structural Reliability Lecture 229 - Reliability Based Design Codes - Part 5
Link NOC:Structural Reliability Lecture 230 - Reliability Based Design Codes - Part 6
Link NOC:Structural Reliability Lecture 231 - Reliability Based Partial Safety Factors - Part 1
Link NOC:Structural Reliability Lecture 232 - Reliability Based Partial Safety Factors - Part 2
Link NOC:Structural Reliability Lecture 233 - Reliability Based Partial Safety Factors - Part 3
Link NOC:Structural Reliability Lecture 234 - Reliability Based Design Code Development - Part 1
Link NOC:Structural Reliability Lecture 235 - Reliability Based Design Code Development - Part 2
Link NOC:Structural Reliability Lecture 236 - Reliability Based Design Code Development - Part 3
Link NOC:Structural Reliability Lecture 237 - Reliability Based Design Code Development - Part 4
Link NOC:Structural Reliability Lecture 238 - Target Reliabilities - Part 1
Link NOC:Structural Reliability Lecture 239 - Target Reliabilities - Part 2
Link NOC:Structural Reliability Lecture 240 - Target Reliabilities - Part 3
Link NOC:Structural Reliability Lecture 241 - Target Reliabilities - Part 4
Link NOC:Structural Reliability Lecture 242 - Target Reliabilities - Part 5
Link NOC:Structural Reliability Lecture 243 - Target Reliabilities - Part 6
Link NOC:Structural Reliability Lecture 244 - Target Reliabilities - Part 7
Link NOC:Structural Reliability Lecture 245 - Target Reliabilities - Part 8
Link NOC:Structural Reliability Lecture 246 - Target Reliabilities - Part 9
Link NOC:Structural Reliability Lecture 247 - Target Reliabilities - Part 10
Link NOC:Structural Reliability Lecture 248 - Target Reliabilities and General Conclusions - Part 1
Link NOC:Structural Reliability Lecture 249 - Target Reliabilities and General Conclusions - Part 2
Link NOC:Structural Reliability Lecture 250 - Target Reliabilities and General Conclusions - Part 3
Link NOC:Structural Reliability Lecture 251 - Target Reliabilities and General Conclusions - Part 4
Link NOC:Structural Reliability Lecture 252 - Target Reliabilities and General Conclusions - Part 5
Link NOC:Ground Improvement Lecture 1 - Need for Ground Improvement
Link NOC:Ground Improvement Lecture 2 - Ground Improvement Methods
Link NOC:Ground Improvement Lecture 3 - Ground Improvement Methods (Continued...)
Link NOC:Ground Improvement Lecture 4 - GI Methods and Classification
Link NOC:Ground Improvement Lecture 5 - Excavation and Replacement, the simplest GI method
Link NOC:Ground Improvement Lecture 6 - Shallow Densification
Link NOC:Ground Improvement Lecture 7 - Shallow densification (Continued...)
Link NOC:Ground Improvement Lecture 8 - Quality Control and Quality Assurance
Link NOC:Ground Improvement Lecture 9 - Application Problem
Link NOC:Ground Improvement Lecture 10 - Application Problem on Excavation and Replacement
Link NOC:Ground Improvement Lecture 11 - Deep Dynamic Compaction
Link NOC:Ground Improvement Lecture 12 - Deep Dynamic Compaction (Continued...)
Link NOC:Ground Improvement Lecture 13 - Deep Dynamic Compaction (Continued...)
Link NOC:Ground Improvement Lecture 14 - Deep Dynamic Compaction (Continued...)
Link NOC:Ground Improvement Lecture 15 - Deep Dynamic Compaction (Continued...)
Link NOC:Ground Improvement Lecture 16 - Rapid Impact Compaction
Link NOC:Ground Improvement Lecture 17 - Rapid Impact Compaction (Continued...)
Link NOC:Ground Improvement Lecture 18 - Rapid Impact Compaction (Continued...)
Link NOC:Ground Improvement Lecture 19 - Vibro compaction
Link NOC:Ground Improvement Lecture 20 - Vibro compaction (Continued...)
Link NOC:Ground Improvement Lecture 21 - Design Steps
Link NOC:Ground Improvement Lecture 22 - Design Parameters and Procedure
Link NOC:Ground Improvement Lecture 23 - Application Problem and Quality Control
Link NOC:Ground Improvement Lecture 24 - Deep Replacement
Link NOC:Ground Improvement Lecture 25 - Deep Replacement (Continued...)
Link NOC:Ground Improvement Lecture 26 - Drainage
Link NOC:Ground Improvement Lecture 27 - Dewatering
Link NOC:Ground Improvement Lecture 28 - Dewatering (Continued...)
Link NOC:Ground Improvement Lecture 29 - Dewatering Design Principle
Link NOC:Ground Improvement Lecture 30 - Design Example
Link NOC:Ground Improvement Lecture 31 - Preconsolidation
Link NOC:Ground Improvement Lecture 32 - Preconsolidation (Continued...)
Link NOC:Ground Improvement Lecture 33 - Preconsolidation (Continued...)
Link NOC:Ground Improvement Lecture 34 - Preconsolidation (Continued...)
Link NOC:Ground Improvement Lecture 35 - Preconsolidation (Continued...)
Link NOC:Ground Improvement Lecture 36 - Grouting
Link NOC:Ground Improvement Lecture 37 - Grouting (Continued...)
Link NOC:Ground Improvement Lecture 38 - Grouting (Continued...)
Link NOC:Ground Improvement Lecture 39 - Grouting (Continued...)
Link NOC:Ground Improvement Lecture 40 - Grouting (Continued...)
Link NOC:Ground Improvement Lecture 41 - Grouting (Continued...)
Link NOC:Ground Improvement Lecture 42 - Chemical Stabilisation
Link NOC:Ground Improvement Lecture 43 - Chemical Stabilisation (Continued...)
Link NOC:Ground Improvement Lecture 44 - Chemical Stabilisation (Continued...)
Link NOC:Ground Improvement Lecture 45 - Chemical Stabilisation (Continued...)
Link NOC:Ground Improvement Lecture 46 - Soil Nailing
Link NOC:Ground Improvement Lecture 47 - Soil Nailing (Continued...)
Link NOC:Ground Improvement Lecture 48 - Soil Nailing (Continued...)
Link NOC:Ground Improvement Lecture 49 - Soil Nailing (Continued...)
Link NOC:Ground Improvement Lecture 50 - Soil Nailing (Continued...)
Link NOC:Ground Improvement Lecture 51 - Geosynthetics in Ground Improvement
Link NOC:Ground Improvement Lecture 52 - Geosynthetics in Ground Improvement
Link NOC:Ground Improvement Lecture 53 - Geosynthetics in Ground Improvement
Link NOC:Ground Improvement Lecture 54 - Geosynthetics in Ground Improvement
Link NOC:Ground Improvement Lecture 55 - Geosynthetics in Ground Improvement
Link NOC:Ground Improvement Lecture 56 - Geosynthetics in Ground Improvement (Continued...)
Link NOC:Ground Improvement Lecture 57 - Geosynthetics in Ground Improvement (Continued...)
Link NOC:Ground Improvement Lecture 58 - Geosynthetics in Ground Improvement (Continued...)
Link NOC:Ground Improvement Lecture 59 - Geosynthetics in Ground Improvement (Continued...)
Link NOC:Ground Improvement Lecture 60 - Summary and Concluding Remarks
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 1 - Introduction
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 2 - Leaf Area Index - Definition and Basics
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 3 - Leaf Area Index - Field Measurements
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 4 - Remote Sensing - Story of Matter and Energy Interactions
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 5 - Remote Sensing - Optical Properties of Leaf and Canopy
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 6 - LAI- Optical RS Methods: Empirical Transfer Functions
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 7 - LAI Estimation - RS Methods: Model Inversion
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 8 - LAI Estimation - LiDAR and Micowave RS Methods
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 9 - LAI- Global Data Products
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 10 - LAI Products - Challenges and Future Prospects
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 11 - RS of Primary Productivity - Introduction and Overview
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 12 - RS of Primary Productivity - VIs and LUE
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 13 - RS of Primary Productivity - Process Based Models
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 14 - RS of Primary Productivity Methods - SIF
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 15 - RS of Primary Productivity Methods - LST, ML, Inversion/Passive RS
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 16 - LAI Applications: Phenology, Climate and LSMs
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 17 - RS of Primary Productivity - Uncertainities and Challenges - LUE
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 18 - LAI Applications: Indian Examples
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 19 - Primary Productivity Applications: Indian Examples
Link NOC:Remote Sensing of Leaf Area Index and Primary Productivity Lecture 20 - Primary Productivity Applications: Indian Examples and Way Forward
Link NOC:Rock Mechanics and Tunneling Lecture 1 - Objective, scope, and associated problems
Link NOC:Rock Mechanics and Tunneling Lecture 2 - Rock Engineering Application Areas (Continued...) and Discontinuities in rock
Link NOC:Rock Mechanics and Tunneling Lecture 3 - Discontinuities in rock (Continued...) and classification of rock
Link NOC:Rock Mechanics and Tunneling Lecture 4 - Classification of rock based on origin (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 5 - Stereographic projection Stereonet Example
Link NOC:Rock Mechanics and Tunneling Lecture 6 - Stereographic projection Stereonet Example (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 7 - Rock coring
Link NOC:Rock Mechanics and Tunneling Lecture 8 - Rock coring (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 9 - Rock coring (Continued...) and Geophysical Methods
Link NOC:Rock Mechanics and Tunneling Lecture 10 - Geophysical Methods (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 11 - Geophysical Methods (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 12 - Introduction, Physical properties
Link NOC:Rock Mechanics and Tunneling Lecture 13 - Physical properties (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 14 - Physical properties (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 15 - Mechanical Properties
Link NOC:Rock Mechanics and Tunneling Lecture 16 - Mechanical Properties (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 17 - Laboratory Testing Methods
Link NOC:Rock Mechanics and Tunneling Lecture 18 - Laboratory Testing Methods (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 19 - Laboratory Testing Methods (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 20 - Laboratory Testing Methods (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 21 - In-situ Testing Methods
Link NOC:Rock Mechanics and Tunneling Lecture 22 - Rock mass classification
Link NOC:Rock Mechanics and Tunneling Lecture 23 - Rock mass classification (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 24 - Rock mass classification (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 25 - Rock mass classification (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 26 - Rock mass classification (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 27 - Analysis of Stresses
Link NOC:Rock Mechanics and Tunneling Lecture 28 - Analysis of Stresses (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 29 - Analysis of Stresses (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 30 - Analysis of Stresses (Continued...) and Stress-Strain Relationship
Link NOC:Rock Mechanics and Tunneling Lecture 31 - Introduction to rock and rock mass failure
Link NOC:Rock Mechanics and Tunneling Lecture 32 - Mohr-Coulomb (MC) Failure Criterion
Link NOC:Rock Mechanics and Tunneling Lecture 33 - Griffith Crack Theory and Empirical Failure Criteria for Rock
Link NOC:Rock Mechanics and Tunneling Lecture 34 - Empirical Failure Criteria for Rock (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 35 - Equivalent Mohr-Coulomb (MC) Parameters
Link NOC:Rock Mechanics and Tunneling Lecture 36 - Failure Criterion in Deviatoric Plane
Link NOC:Rock Mechanics and Tunneling Lecture 37 - Slopes
Link NOC:Rock Mechanics and Tunneling Lecture 38 - Slopes (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 39 - Slopes (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 40 - Slopes (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 41 - Underground excavations
Link NOC:Rock Mechanics and Tunneling Lecture 42 - Foundations
Link NOC:Rock Mechanics and Tunneling Lecture 43 - Foundations (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 44 - Foundations (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 45 - Foundations (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 46 - Rock support systems
Link NOC:Rock Mechanics and Tunneling Lecture 47 - Shapes and usages
Link NOC:Rock Mechanics and Tunneling Lecture 48 - Methods of construction
Link NOC:Rock Mechanics and Tunneling Lecture 49 - Methods of construction (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 50 - Methods of construction (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 51 - Problems associated with tunnels and Tunneling in various subsoil conditions and rocks
Link NOC:Rock Mechanics and Tunneling Lecture 52 - Methods to determine stresses around openings: Kirsch equation
Link NOC:Rock Mechanics and Tunneling Lecture 53 - Methods to determine stresses around openings: Kirsch equation (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 54 - Methods to determine stresses around openings: Kirsch equation contdand Greenspan’s method
Link NOC:Rock Mechanics and Tunneling Lecture 55 - Basic Concepts for Lined, Unlined, and Pressure Tunnels
Link NOC:Rock Mechanics and Tunneling Lecture 56 - Basic Concepts for Lined, Unlined, and Pressure Tunnels (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 57 - Improvement of rock mass response
Link NOC:Rock Mechanics and Tunneling Lecture 58 - Improvement of rock mass response (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 59 - Improvement of rock mass response (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 60 - Improvement of rock mass response (Continued...)
Link NOC:Rock Mechanics and Tunneling Lecture 61 - Improvement of rock mass response (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 1 - Introduction
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 2 - Causes of Deterioration
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 3 - Materials Related Distresses
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 4 - Materials Related Distresses (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 5 - Other Distresses in Concrete
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 6 - Load Associated Distresses
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 7 - Identification of Distresses
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 8 - Semi-destructive Testing
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 9 - Non-destructive Tests
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 10 - Non-destructive Tests (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 11 - Other Tests
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 12 - Considerations for Repair and Retrofitting
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 13 - Repair Techniques
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 14 - Repair Techniques (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 15 - Repair Techniques (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 16 - Strengthening of Structural Components
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 17 - Strengthening of Structural Components (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 18 - Introduction to Composites, Types and Characteristics
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 19 - Properties of Fibers, Resins and FRP Composite
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 20 - Micromechanics of Composites
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 21 - Micromechanics of Composites (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 22 - Manufacturing of FRP Composites
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 23 - FRPC in Flexural Strengthening of Structural Members - I
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 24 - FRPC in Flexural Strengthening of Structural Members - II
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 25 - FRPC in Shear Strengthening of Structural Members
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 26 - FRPC in Axial Strengthening of Structural Members - I
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 27 - FRPC in Axial Strengthening of Structural Members - II
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 28 - Near Surface Mounted FRP Reinforcement
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 29 - FRPC in Strengthening of Beam-Column Joints
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 30 - Anchorage Systems for FRP Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 31 - Installation of FRP
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 32 - Design Considerations
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 33 - Design Approach for Flexural Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 34 - Design of Flexural Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 35 - Design Approach for Shear Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 36 - Design of Shear Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 37 - Design Approach for Axial Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 38 - Design of Axial Strengthening
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 39 - Concepts of Concrete Overlay
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 40 - Distresses in Existing Pavement
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 41 - Evaluation of Pavement
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 42 - Design Considerations for Concrete Overlay
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 43 - Construction of Concrete Overlay
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 44 - Introduction
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 45 - Retrofitting Steps
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 46 - Review of Materials and Test Methods
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 47 - Review of Analysis Method
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 48 - Some aspects of Seismic Retrofitting
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 49 - Introduction
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 50 - A Few Retrofitting Techniques
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 51 - A Few Seismic Retrofitting Techniques
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 52 - Introduction
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 53 - Retrofitting steps and Techniques
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 54 - Retrofitting Techniques for Structural Elements
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 55 - Retrofitting Techniques for structural elements (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 56 - Retrofitting Techniques for structural elements (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 57 - Retrofitting Techniques for structural elements (Continued...)
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 58 - Seismic Strengthening of structural elements
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 59 - Introduction and Overview
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 60 - Retrofitting of Structural Members
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 61 - Introduction
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 62 - A case study of Retrofitting
Link NOC:Retrofitting and Rehabilitation of Civil Infrastructure Lecture 63 - A case study of Retrofitting (Continued...)
Link NOC:Surface Water Hydrology Lecture 1 - Introduction
Link NOC:Surface Water Hydrology Lecture 2 - Hydrologic Cycle and its Different Components
Link NOC:Surface Water Hydrology Lecture 3 - Hydrological System Concept
Link NOC:Surface Water Hydrology Lecture 4 - Surface Water Resources of India
Link NOC:Surface Water Hydrology Lecture 5 - Hydrology and Climate Change
Link NOC:Surface Water Hydrology Lecture 6 - Different Forms of Precipitation and Indian Monsoon
Link NOC:Surface Water Hydrology Lecture 7 - Measurement and Analysis of Precipitation
Link NOC:Surface Water Hydrology Lecture 8 - Precipitation Data Quality and Presentation
Link NOC:Surface Water Hydrology Lecture 9 - Areal Precipitation and Frequency Analysis
Link NOC:Surface Water Hydrology Lecture 10 - Analysis of Precipitation: IDF and PMP
Link NOC:Surface Water Hydrology Lecture 11 - Introduction to Evaporation and Evaporimeters
Link NOC:Surface Water Hydrology Lecture 12 - Estimation of Evaporation and Control Measures
Link NOC:Surface Water Hydrology Lecture 13 - Evapotranspiration
Link NOC:Surface Water Hydrology Lecture 14 - Initial Loss and Infiltration Process
Link NOC:Surface Water Hydrology Lecture 15 - Modelling of Infiltration Capacity
Link NOC:Surface Water Hydrology Lecture 16 - Infiltration Indices
Link NOC:Surface Water Hydrology Lecture 17 - Measurement of Flow Velocity
Link NOC:Surface Water Hydrology Lecture 18 - Area-Velocity and Moving-Boat Methods
Link NOC:Surface Water Hydrology Lecture 19 - Dilution Technique, Electromagnetic and Ultrasonic Methods
Link NOC:Surface Water Hydrology Lecture 20 - Indirect Streamflow Measurement
Link NOC:Surface Water Hydrology Lecture 21 - Stage-Discharge Relationship and Rating Curve
Link NOC:Surface Water Hydrology Lecture 22 - Introduction and Catchment Characteristics
Link NOC:Surface Water Hydrology Lecture 23 - Estimation of Runoff Volume: Empirical Models
Link NOC:Surface Water Hydrology Lecture 24 - Estimation of Runoff Volume: Conceptual Models
Link NOC:Surface Water Hydrology Lecture 25 - Flow Characteristic Curves and Estimation of Reservoir Storage
Link NOC:Surface Water Hydrology Lecture 26 - Concept of Droughts and Environmental Flows
Link NOC:Surface Water Hydrology Lecture 27 - Basics of Hydrographs
Link NOC:Surface Water Hydrology Lecture 28 - Base Flow Separation, DRH and ERH
Link NOC:Surface Water Hydrology Lecture 29 - Introduction to Unit Hydrographs
Link NOC:Surface Water Hydrology Lecture 30 - Unit Hydrograph to Direct Runoff Hydrograph
Link NOC:Surface Water Hydrology Lecture 31 - Derivation of Unit Hydrograph
Link NOC:Surface Water Hydrology Lecture 32 - Unit Hydrograph of Different Durations: Method of Superposition
Link NOC:Surface Water Hydrology Lecture 33 - Unit Hydrograph of Different Durations: Method of S-Curve
Link NOC:Surface Water Hydrology Lecture 34 - More on Unit Hydrographs
Link NOC:Surface Water Hydrology Lecture 35 - Synthetic Unit Hydrograph
Link NOC:Surface Water Hydrology Lecture 36 - Instantaneous Unit Hydrograph
Link NOC:Surface Water Hydrology Lecture 37 - Introduction to Floods and Rational Method
Link NOC:Surface Water Hydrology Lecture 38 - Flood Peak Discharge and Catchment Characteristics
Link NOC:Surface Water Hydrology Lecture 39 - Estimation of Peak Flood Flow
Link NOC:Surface Water Hydrology Lecture 40 - Flood Control and its Status in India
Link NOC:Surface Water Hydrology Lecture 41 - Introduction to Flood Routing
Link NOC:Surface Water Hydrology Lecture 42 - Reservoir Routing: Modified Pul’s Method
Link NOC:Surface Water Hydrology Lecture 43 - Reservoir Routing: Goodrich Method and Runge-Kutta Method
Link NOC:Surface Water Hydrology Lecture 44 - Channel Routing: Parameters of Muskingum Method
Link NOC:Surface Water Hydrology Lecture 45 - Channel Routing: Muskingum Method and Hydraulic Flood Routing
Link NOC:Surface Water Hydrology Lecture 46 - Concept of Routing in IUH Development and Clark’s Method
Link NOC:Surface Water Hydrology Lecture 47 - Nash’s Conceptual Model
Link NOC:Surface Water Hydrology Lecture 48 - Basic Concepts of Probability and Statistics
Link NOC:Surface Water Hydrology Lecture 49 - Types of Data Series and Concept of Return Period
Link NOC:Surface Water Hydrology Lecture 50 - Introduction to Frequency Analysis
Link NOC:Surface Water Hydrology Lecture 51 - Parametric Methods of Frequency Analysis
Link NOC:Surface Water Hydrology Lecture 52 - Frequency Analysis with Extreme Value Type-I Distribution
Link NOC:Surface Water Hydrology Lecture 53 - Confidence Interval and Standard Error in the Frequency Estimates
Link NOC:Surface Water Hydrology Lecture 54 - Various Issues behind Frequency Analysis
Link NOC:Surface Water Hydrology Lecture 55 - Basics of Hydrologic Design
Link NOC:Surface Water Hydrology Lecture 56 - Risk Analysis to Determine Return Period
Link NOC:Surface Water Hydrology Lecture 57 - Hydro-economic Analysis to Determine Return Period
Link NOC:Surface Water Hydrology Lecture 58 - Uncertainty in Hydrologic Analysis
Link NOC:Surface Water Hydrology Lecture 59 - Estimated Limiting Storm and Design Flood
Link NOC:Surface Water Hydrology Lecture 60 - Design Storm
Link NOC:Surface Water Hydrology Lecture 61 - Hydrologic Design of Reservoirs: Introduction and Determination of Storage Capacity
Link NOC:Surface Water Hydrology Lecture 62 - Determination of Storage Capacity and Models in Reservoir Design
Link NOC:Traffic Engineering Lecture 1 - Traffic Engineering Objectives and Role of Transportation Demand and Land-Use
Link NOC:Traffic Engineering Lecture 2 - Mobility and Accessibility, Traffic Engineering Elements and Components of Traffic
Link NOC:Traffic Engineering Lecture 3 - Road Users
Link NOC:Traffic Engineering Lecture 4 - Vehicles, Roadways and Traffic Control Devices
Link NOC:Traffic Engineering Lecture 5 - Traffic Signs, Delineators and Signals
Link NOC:Traffic Engineering Lecture 6 - Traffic Facilities and Traffic Stream Parameters
Link NOC:Traffic Engineering Lecture 7 - Traffic Volumes and Time Headways
Link NOC:Traffic Engineering Lecture 8 - Traffic Density and Relationships among Macroscopic Parameters
Link NOC:Traffic Engineering Lecture 9 - Single Regime Traffic Stream Models
Link NOC:Traffic Engineering Lecture 10 - Multi-Regime Models and Characteristics of Interrupted Flow
Link NOC:Traffic Engineering Lecture 11 - Analysis of Shock Waves - I
Link NOC:Traffic Engineering Lecture 12 - Analysis of Shock Waves - II
Link NOC:Traffic Engineering Lecture 13 - Analysis of Shock Waves - III
Link NOC:Traffic Engineering Lecture 14 - Queueing Analysis - I
Link NOC:Traffic Engineering Lecture 15 - Queueing Analysis - II
Link NOC:Traffic Engineering Lecture 16 - Basic Concepts
Link NOC:Traffic Engineering Lecture 17 - Analysis of Basic Freeway and Multi-Lane Highway Segments (as per HCM, 2016) - I
Link NOC:Traffic Engineering Lecture 18 - Analysis of Basic Freeway and Multi-Lane Highway Segments (as per HCM, 2016) - II
Link NOC:Traffic Engineering Lecture 19 - Analysis of Basic Freeway and Multi-Lane Highway Segments (As per HCM, 2016) - III
Link NOC:Traffic Engineering Lecture 20 - Analysis of Two-Lane Highway Segments (As per HCM, 2016) - I
Link NOC:Traffic Engineering Lecture 21 - Analysis of Two-Lane Highway Segments (As per HCM, 2016) - II
Link NOC:Traffic Engineering Lecture 22 - Analysis of Urban street Segments (As per HCM, 2016) - I
Link NOC:Traffic Engineering Lecture 23 - Analysis of Urban street Segments (As per HCM, 2016) - II
Link NOC:Traffic Engineering Lecture 24 - Analysis of Urban street Segments (As per HCM, 2016) - III
Link NOC:Traffic Engineering Lecture 25 - Analysis of Single, Intermediate and Two-Lane Roads (As per Indo HCM, 2017)
Link NOC:Traffic Engineering Lecture 26 - Analysis of Multi Lane Highways (As per Indo HCM, 2017)
Link NOC:Traffic Engineering Lecture 27 - Intersection Control and Critical Aspects of Operation - I
Link NOC:Traffic Engineering Lecture 28 - Intersection Control and Critical Aspects of Operation - II
Link NOC:Traffic Engineering Lecture 29 - Intersection Control and Critical Aspects of Operation - III
Link NOC:Traffic Engineering Lecture 30 - Intersection Control and Critical Aspects of Operation - IV
Link NOC:Traffic Engineering Lecture 31 - Intersection Control and Critical Aspects of Operation - V
Link NOC:Traffic Engineering Lecture 32 - Delay as a Performance Measure
Link NOC:Traffic Engineering Lecture 33 - Pre-Timed Signal Design - I
Link NOC:Traffic Engineering Lecture 34 - Pre-Timed Signal Design - II
Link NOC:Traffic Engineering Lecture 35 - Operational Analysis of Signalized Intersection - I
Link NOC:Traffic Engineering Lecture 36 - Operational Analysis of Signalized Intersection - II
Link NOC:Traffic Engineering Lecture 37 - Operational Analysis of Signalized Intersection - III
Link NOC:Traffic Engineering Lecture 38 - Operational Analysis of Signalized Intersection - IV
Link NOC:Traffic Engineering Lecture 39 - Actuated Signals
Link NOC:Traffic Engineering Lecture 40 - Signal Coordination - I
Link NOC:Traffic Engineering Lecture 41 - Signal Coordination - II
Link NOC:Traffic Engineering Lecture 42 - Signal Coordination - III
Link NOC:Traffic Engineering Lecture 43 - Oversaturated Signals and Mitigation Strategies
Link NOC:Traffic Engineering Lecture 44 - Car Following Theory - I
Link NOC:Traffic Engineering Lecture 45 - Car Following Theory - II
Link NOC:Traffic Engineering Lecture 46 - Car Following Theory - III
Link NOC:Traffic Engineering Lecture 47 - Car Following Theory - IV
Link NOC:Traffic Engineering Lecture 48 - Traffic Simulation - I
Link NOC:Traffic Engineering Lecture 49 - Traffic Simulation - II
Link NOC:Traffic Engineering Lecture 50 - Traffic Simulation - III
Link NOC:Traffic Engineering Lecture 51 - Introduction to Traffic Control and Management
Link NOC:Traffic Engineering Lecture 52 - Access Management
Link NOC:Traffic Engineering Lecture 53 - Demand Management
Link NOC:Traffic Engineering Lecture 54 - Bus Priority Treatments
Link NOC:Traffic Engineering Lecture 55 - Emerging Traffic Management Measures
Link NOC:Traffic Engineering Lecture 56 - Parking Management - I
Link NOC:Traffic Engineering Lecture 57 - Parking Management - II
Link NOC:Traffic Engineering Lecture 58 - Parking Management - III
Link NOC:Traffic Engineering Lecture 59 - Introduction to Road Safety
Link NOC:Traffic Engineering Lecture 60 - Road Safety Engineering and Crash Data
Link NOC:Traffic Engineering Lecture 61 - Blackspot Analysis
Link NOC:Traffic Engineering Lecture 62 - Crash Data Analysis
Link NOC:Traffic Engineering Lecture 63 - Road Safety Audit
Link NOC:Traffic Engineering Lecture 64 - Safe System Approach
Link NOC:Traffic Engineering Lecture 65 - Road Safety Countermeasures
Link NOC:Traffic Engineering Lecture 66 - Speed Management Measures
Link NOC:Bridge Engineering Lecture 1 - Components, Materials, Forms, Evolutions and Classifications of Bridges
Link NOC:Bridge Engineering Lecture 2 - Site Selection, Subsoil Exploration and Traffic Projections for Bridges
Link NOC:Bridge Engineering Lecture 3 - Hydraulic Characteristics, Economical Span and Choice of Bridge Type
Link NOC:Bridge Engineering Lecture 4 - Standard Specifications for Road Bridges
Link NOC:Bridge Engineering Lecture 5 - Standard Specifications for Rail Bridges
Link NOC:Bridge Engineering Lecture 6 - Design of Slab Culverts
Link NOC:Bridge Engineering Lecture 7 - Design of T-Beam and Slab Bridge
Link NOC:Bridge Engineering Lecture 8 - Voided Slab Bridges, Skew Slab Culverts and Curved Bridge Decks
Link NOC:Bridge Engineering Lecture 9 - Design of Box Culverts
Link NOC:Bridge Engineering Lecture 10 - Design of Pipe Culverts
Link NOC:Bridge Engineering Lecture 11 - Design of Steel Truss Bridges
Link NOC:Bridge Engineering Lecture 12 - Design Example of Steel Truss Bridges
Link NOC:Bridge Engineering Lecture 13 - Design of Plate Girder Bridges
Link NOC:Bridge Engineering Lecture 14 - Design Example of Plate Girder Bridges
Link NOC:Bridge Engineering Lecture 15 - Masonry Arch Bridges
Link NOC:Bridge Engineering Lecture 16 - Concrete Arch Bridges
Link NOC:Bridge Engineering Lecture 17 - Suspension Bridges
Link NOC:Bridge Engineering Lecture 18 - Cable-Stayed Bridges
Link NOC:Bridge Engineering Lecture 19 - Balanced Cantilever Bridges
Link NOC:Bridge Engineering Lecture 20 - Prestressed Concrete Bridges
Link NOC:Bridge Engineering Lecture 21 - Composite Bridges
Link NOC:Bridge Engineering Lecture 22 - Rigid Frame Bridges
Link NOC:Bridge Engineering Lecture 23 - Continuous Girder Bridges
Link NOC:Bridge Engineering Lecture 24 - Design Example of Continuous Girder Bridges
Link NOC:Bridge Engineering Lecture 25 - Bridge Piers
Link NOC:Bridge Engineering Lecture 26 - Bridge Abutments
Link NOC:Bridge Engineering Lecture 27 - Pile Foundations for Bridges
Link NOC:Bridge Engineering Lecture 28 - Well and Pneumatic Caisson Foundations for Bridges
Link NOC:Bridge Engineering Lecture 29 - Bridge Bearings
Link NOC:Bridge Engineering Lecture 30 - Bridge Joints
Link NOC:Bridge Engineering Lecture 31 - Bridge Appurtenances
Link NOC:Bridge Engineering Lecture 32 - Bridge Construction
Link NOC:Bridge Engineering Lecture 33 - Maintenance and Rehabilitation of Bridges
Link NOC:Bridge Engineering Lecture 34 - Rebuilding of Bridges
Link NOC:Bridge Engineering Lecture 35 - Dynamic Response of Bridge Decks
Link NOC:Bridge Engineering Lecture 36 - Seismic Design of Highway Bridges
Link NOC:Bridge Engineering Lecture 37 - Seismic Design of Railway Bridges
Link NOC:Bridge Engineering Lecture 38 - Lessons from Bridge Failures
Link NOC:Bridge Engineering Lecture 39 - Fatigue and Fracture of Bridges
Link NOC:Bridge Engineering Lecture 40 - Use of Shape memory Alloys in Bridges
Link NOC:Bridge Engineering Lecture 41 - Use of Engineered Cementitious Composite (ECC) in Bridges
Link NOC:Bridge Engineering Lecture 42 - 3D Printing of Bridges
Link NOC:Bridge Engineering Lecture 43 - High Speed Railway Bridges
Link NOC:Elastic Stability of Structures Lecture 1 - Basic concepts of buckling and introduction to equilibrium approach
Link NOC:Elastic Stability of Structures Lecture 2 - Introduction to energy and imperfection approach
Link NOC:Elastic Stability of Structures Lecture 3 - Introduction to different types of buckling
Link NOC:Elastic Stability of Structures Lecture 4 - Weighted residual methods in structual mechanics
Link NOC:Elastic Stability of Structures Lecture 5 - Weighted residual methods in structual mechanics (Continued...)
Link NOC:Elastic Stability of Structures Lecture 6 - Introduction to the strong and weak forms of GDE
Link NOC:Elastic Stability of Structures Lecture 7 - Variational method: Derivation of Euler Lagrange equation
Link NOC:Elastic Stability of Structures Lecture 8 - Delta opeator in variational method for finding GDE and Boundary conditions
Link NOC:Elastic Stability of Structures Lecture 9 - Euler lagrange equation for functional having different dependent variables
Link NOC:Elastic Stability of Structures Lecture 10 - Brachistochrone problem
Link NOC:Elastic Stability of Structures Lecture 11 - Rayleigh-Ritz method
Link NOC:Elastic Stability of Structures Lecture 12 - Extension of Rayleigh-Ritz method and Galerkin’s method
Link NOC:Elastic Stability of Structures Lecture 13 - Single DOF stability model
Link NOC:Elastic Stability of Structures Lecture 14 - Single DOF stability model and model having imperfection
Link NOC:Elastic Stability of Structures Lecture 15 - Large deflection theory for stability analysis of rigid body stability models
Link NOC:Elastic Stability of Structures Lecture 16 - Two DOF rigid body stability models
Link NOC:Elastic Stability of Structures Lecture 17 - Snap through stability model and model of imperfect geometry
Link NOC:Elastic Stability of Structures Lecture 18 - Weak form solution for hinged-hinged and fixed-fixed column
Link NOC:Elastic Stability of Structures Lecture 19 - Weak form solution for fixed-free and fixed-hinged column
Link NOC:Elastic Stability of Structures Lecture 20 - Strong form solution for hinged-hinged column
Link NOC:Elastic Stability of Structures Lecture 21 - Strong form solution for fixed-fixed and fixed-free column
Link NOC:Elastic Stability of Structures Lecture 22 - Critical load for column with elastic support
Link NOC:Elastic Stability of Structures Lecture 23 - Boundary conditions for column with general case of elastically supported ends
Link NOC:Elastic Stability of Structures Lecture 24 - Critical load for portal frame with column hinged at base
Link NOC:Elastic Stability of Structures Lecture 25 - Critical load for portal frame with column fixed at base
Link NOC:Elastic Stability of Structures Lecture 26 - Element stiffness matrix for beam-column
Link NOC:Elastic Stability of Structures Lecture 27 - Stability analysis of frames by matrix stiffness method
Link NOC:Elastic Stability of Structures Lecture 28 - Critical load of Euler column: Large deflection theory
Link NOC:Elastic Stability of Structures Lecture 29 - Critical load of Euler column with initial imperfection
Link NOC:Elastic Stability of Structures Lecture 30 - Load deflection curve for beam-column: GDE approach
Link NOC:Elastic Stability of Structures Lecture 31 - Load deflection curve for beam-column: Energy approach
Link NOC:Elastic Stability of Structures Lecture 32 - General expression of elastic curve for beam-column
Link NOC:Elastic Stability of Structures Lecture 33 - Beam-column with several lateral and continuous loads
Link NOC:Elastic Stability of Structures Lecture 34 - Bending of beam-column by end couples
Link NOC:Elastic Stability of Structures Lecture 35 - Three moment equation for continuous beam-column
Link NOC:Elastic Stability of Structures Lecture 36 - Moment equation for continuous beam-column with intermediate column
Link NOC:Elastic Stability of Structures Lecture 37 - Beam-column on Elastic Foundation
Link NOC:Elastic Stability of Structures Lecture 38 - St Venant Torsion and Non-uniform Torsion
Link NOC:Elastic Stability of Structures Lecture 39 - Torsional Buckling
Link NOC:Elastic Stability of Structures Lecture 40 - Torsional Buckling and Torsional Flexural Buckling
Link NOC:Elastic Stability of Structures Lecture 41 - Torsional Flexural Buckling of Column Having Different Boundary Conditions
Link NOC:Elastic Stability of Structures Lecture 42 - Rayleigh-Ritz method for Torsional Flexural Buckling of Column
Link NOC:Elastic Stability of Structures Lecture 43 - Introduction to Plate Buckling and Small Deflection Theory
Link NOC:Elastic Stability of Structures Lecture 44 - Governing Differential Equation of Plate Buckling Using Small Deflection Theory
Link NOC:Elastic Stability of Structures Lecture 45 - Governing Differential Equation of Plate Buckling Using Small Deflection Theory (Continued...)
Link NOC:Elastic Stability of Structures Lecture 46 - Critical Load of Plate Using Equilibrium Approach
Link NOC:Elastic Stability of Structures Lecture 47 - Critical Load of Plate Using Energy Approach
Link NOC:Elastic Stability of Structures Lecture 48 - Critical Load of Plates with Different End Conditions: Energy Approach and Galerkin's
Link NOC:Elastic Stability of Structures Lecture 49 - F-w Formulation For Plate Buckling
Link NOC:Elastic Stability of Structures Lecture 50 - Critical load and Post Buckling Behaviour of Plate Using F-w Formulation
Link NOC:Elastic Stability of Structures Lecture 51 - Governing Differential Equation of Shell Buckling by Using Small Deflection Theory
Link NOC:Elastic Stability of Structures Lecture 52 - Governing Differential Equation of Shell Buckling by Using Small Deflection Theory (Continued...)
Link NOC:Elastic Stability of Structures Lecture 53 - Governing Differential Equation of Shell Buckling: Donnell's Equation
Link NOC:Elastic Stability of Structures Lecture 54 - Solution of Donnell's Equation for Finding Critical Load
Link NOC:Elastic Stability of Structures Lecture 55 - Governing Differential Equation of Shell Buckling by Using Finite Deflection Theory
Link NOC:Elastic Stability of Structures Lecture 56 - Post Buckling Behaviour of an Imperfect Axially Compressed Cylindrical Shell Panel
Link NOC:Elastic Stability of Structures Lecture 57 - Governing Differential Equation for the deflection curve of a thin bar
Link NOC:Elastic Stability of Structures Lecture 58 - Critical load of a two-hinged and fixed-fixed circular arch
Link NOC:Elastic Stability of Structures Lecture 59 - Inelastic Buckling Analysis of Column
Link NOC:Elastic Stability of Structures Lecture 60 - Inelastic Buckling Analysis of Column (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 1 - Fundamentals
Link NOC:Radiogenic Isotope Geology Lecture 2 - Nuclear Stability and Decay
Link NOC:Radiogenic Isotope Geology Lecture 3 - Radioactive Decay and Growth
Link NOC:Radiogenic Isotope Geology Lecture 4 - Geochronometry: Mass Spectrometry
Link NOC:Radiogenic Isotope Geology Lecture 5 - Geochronometry: Mass Spectrometry (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 6 - Geochronometry: Isotope dilution analysis
Link NOC:Radiogenic Isotope Geology Lecture 7 - Geochronometry: Sample processing
Link NOC:Radiogenic Isotope Geology Lecture 8 - K-Ar Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 9 - K-Ar Method of Dating (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 10 - Ar-Ar Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 11 - Ar-Ar Method of Dating (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 12 - Rb-Sr Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 13 - Rb-Sr Method of Dating (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 14 - Sm-Nd Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 15 - Sm-Nd Method of Dating (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 16 - Re-Os Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 17 - Lu-Hf Method of Dating
Link NOC:Radiogenic Isotope Geology Lecture 18 - U-Th-Pb Geochronology
Link NOC:Radiogenic Isotope Geology Lecture 19 - U-Th-Pb Geochronology (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 20 - U-Th-Pb Geochronology (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 21 - Isotope Geology of Pb
Link NOC:Radiogenic Isotope Geology Lecture 22 - Isotope Geology of Pb (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 23 - Processing and Presentation of Raw Isotope Geochemical Data
Link NOC:Radiogenic Isotope Geology Lecture 24 - Processing and Presentation of Raw Isotope Geochemical Data (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 25 - Application of Sr, Nd, Pb and Hf Isotopes in Petrogenetic Studies
Link NOC:Radiogenic Isotope Geology Lecture 26 - Application of Sr, Nd, Pb and Hf Isotopes in Petrogenetic Studies (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 27 - U-series disequilibrium method of dating
Link NOC:Radiogenic Isotope Geology Lecture 28 - U-series disequilibrium method of dating
Link NOC:Radiogenic Isotope Geology Lecture 29 - Fission-Track dating
Link NOC:Radiogenic Isotope Geology Lecture 30 - Cosmogenic radionuclides and their applications
Link NOC:Radiogenic Isotope Geology Lecture 31 - Cosmogenic radionuclides and their applications
Link NOC:Radiogenic Isotope Geology Lecture 32 - Cosmogenic radionuclides and their applications
Link NOC:Radiogenic Isotope Geology Lecture 33 - Extinct radionuclides and cosmochronology
Link NOC:Radiogenic Isotope Geology Lecture 34 - Extinct radionuclides and cosmochronology (Continued...)
Link NOC:Radiogenic Isotope Geology Lecture 35 - Extinct radionuclides and cosmochronology
Link NOC:Availability and Management of Groundwater Resources Lecture 1 - Hydrological cycle, Need for conservation of Groundwater Resources
Link NOC:Availability and Management of Groundwater Resources Lecture 2 - Hydrological cycle, Need for conservation of Groundwater Resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 3 - Hydrological cycle, Need for conservation of Groundwater Resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 4 - Hydrological cycle, Need for conservation of Groundwater Resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 5 - Hydrological cycle, Need for conservation of Groundwater Resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 6 - Geological formation as Aquifer
Link NOC:Availability and Management of Groundwater Resources Lecture 7 - Geological formation as Aquifer (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 8 - Geological formation as Aquifer (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 9 - Geological formation as Aquifer (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 10 - Introduction about Vadose and Saturated Zone
Link NOC:Availability and Management of Groundwater Resources Lecture 11 - Vadose and Saturated Zone (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 12 - Vadose and Saturated Zone (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 13 - Vadose and Saturated Zone (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 14 - Vadose and Saturated Zone (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 15 - Confined and Unconfined Aquifer and their parameters
Link NOC:Availability and Management of Groundwater Resources Lecture 16 - Confined and Unconfined Aquifer and their parameters (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 17 - Confined and Unconfined Aquifer and their Parameters (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 18 - Confined and Unconfined Aquifer and their Parameters (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 19 - Confined and Unconfined Aquifer and their parameters (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 20 - Porosity, Permeability, Transmissivity and Storage Coefficient
Link NOC:Availability and Management of Groundwater Resources Lecture 21 - Porosity, Permeability, Transmissivity and Storage Coefficient (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 22 - Porosity, Permeability, Transmissivity and Storage Coefficient (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 23 - Porosity, permeability, transmissivity and storage coefficient
Link NOC:Availability and Management of Groundwater Resources Lecture 24 - Porosity, permeability, transmissivity and storage coefficient (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 25 - Law of groundwater movement, Darcy's law and application (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 26 - Law of groundwater movement, Darcy's law and application (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 27 - Law of groundwater movement, Darcy's law and application (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 28 - Law of groundwater movement, Darcy's law and application (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 29 - Law of groundwater movement, Darcy's law and application (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 30 - Estimation of Subsurface Runoff, Types of Wells, Well Hydraulics
Link NOC:Availability and Management of Groundwater Resources Lecture 31 - Estimation of Subsurface Runoff, Types of Wells, Well Hydraulics (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 32 - Estimation of Subsurface Runoff, Types of Wells, Well Hydraulics (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 33 - Estimation of Subsurface Runoff, Types of Wells, Well Hydraulics (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 34 - Estimation of Subsurface Runoff, Types of Wells, Well Hydraulics (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 35 - Measurement of rainfall, Index of wetness, Infiltration rate
Link NOC:Availability and Management of Groundwater Resources Lecture 36 - Measurement of rainfall, Index of wetness, Infiltration rate (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 37 - Measurement of rainfall, Index of wetness, Infiltration rate (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 38 - Measurement of rainfall, Index of wetness, Infiltration rate (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 39 - Measurement of rainfall, Index of wetness, Infiltration rate (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 40 - Estimation of Total Annual Replenishable Natural Groundwater Recharge
Link NOC:Availability and Management of Groundwater Resources Lecture 41 - Estimation of Total Annual Replenishable Natural Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 42 - Estimation of Total Annual Replenishable Natural Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 43 - Estimation of Total Annual Replenishable Natural Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 44 - Estimation of Total Annual Replenishable Natural Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 45 - Groundwater resources planning and management
Link NOC:Availability and Management of Groundwater Resources Lecture 46 - Groundwater Resources Planning and Management (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 47 - Groundwater Resources Planning and Management (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 48 - Groundwater Resources Planning and Management (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 49 - Groundwater Resources Planning and Management (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 50 - Rainwater Harvesting and Artificial Groundwater Recharge
Link NOC:Availability and Management of Groundwater Resources Lecture 51 - Rainwater Harvesting and Artificial Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 52 - Rainwater Harvesting and Artificial Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 53 - Rainwater Harvesting and Artificial Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 54 - Rainwater Harvesting and Artificial Groundwater Recharge (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 55 - Impact of climate change on water resources
Link NOC:Availability and Management of Groundwater Resources Lecture 56 - Impact of climate change on water resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 57 - Impact of climate change on water resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 58 - Impact of climate change on water resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 59 - Impact of climate change on water resources (Continued...)
Link NOC:Availability and Management of Groundwater Resources Lecture 60 - Impact of climate change on water resources (Continued...)
Link NOC:Soil Dynamics Lecture 1 - Introduction and Theory of Vibrations
Link NOC:Soil Dynamics Lecture 2 - Theory of Vibrations
Link NOC:Soil Dynamics Lecture 3 - Single Degree of Freedom System (SDOF) - Part 1
Link NOC:Soil Dynamics Lecture 4 - Single Degree of Freedom System (SDOF) - Part 2
Link NOC:Soil Dynamics Lecture 5 - Single Degree of Freedom System (SDOF) - Part 3
Link NOC:Soil Dynamics Lecture 6 - Single Degree of Freedom System (SDOF) - Part 4
Link NOC:Soil Dynamics Lecture 7 - Single Degree of Freedom System (SDOF) - Part 5
Link NOC:Soil Dynamics Lecture 8 - Single Degree of Freedom System (SDOF) - Part 6
Link NOC:Soil Dynamics Lecture 9 - Single Degree of Freedom System (SDOF) - Part 7
Link NOC:Soil Dynamics Lecture 10 - Single Degree of Freedom System (SDOF) - Part 8
Link NOC:Soil Dynamics Lecture 11 - Single Degree of Freedom System (SDOF) - Part 9
Link NOC:Soil Dynamics Lecture 12 - Multiple Degree of Freedom System (MDOF) - Part 1
Link NOC:Soil Dynamics Lecture 13 - Multiple Degree of Freedom System (MDOF) - Part 2
Link NOC:Soil Dynamics Lecture 14 - Multiple Degree of Freedom System (MDOF) - Part 2
Link NOC:Soil Dynamics Lecture 15 - Multiple Degree of Freedom System (MDOF) - Part 3
Link NOC:Soil Dynamics Lecture 16 - Multiple Degree of Freedom System (MDOF) - Part 5
Link NOC:Soil Dynamics Lecture 17 - Wave Propagation in An Elastic Rod
Link NOC:Soil Dynamics Lecture 18 - Wave Propagation in An Elastic Rod of Finite Length
Link NOC:Soil Dynamics Lecture 19 - Wave Propagation in An Infinite Elastic Medium
Link NOC:Soil Dynamics Lecture 20 - Wave Propagation in An Infinite and Semi-Infinite Elastic Medium
Link NOC:Soil Dynamics Lecture 21 - Determination of Dynamic Properties of Soils (Laboratory Tests) - Part 1
Link NOC:Soil Dynamics Lecture 22 - Determination of Dynamic Properties of Soils (Laboratory Tests) - Part 2
Link NOC:Soil Dynamics Lecture 23 - Determination of Dynamic Properties of Soils (Laboratory Tests) - Part 3
Link NOC:Soil Dynamics Lecture 24 - Determination of Dynamic Properties of Soils (Laboratory Tests) - Part 4
Link NOC:Soil Dynamics Lecture 25 - Determination of Dynamic Properties of Soils (Laboratory Tests) - Part 5
Link NOC:Soil Dynamics Lecture 26 - Determination of Dynamic Properties of Soils (Seismic Reflection Survey)
Link NOC:Soil Dynamics Lecture 27 - Determination of Dynamic Properties of Soils (Seismic Reflection Survey)
Link NOC:Soil Dynamics Lecture 28 - Determination of Dynamic Properties of Soils (Seismic Refraction Survey-Inclined Layering)
Link NOC:Soil Dynamics Lecture 29 - Determination of Dynamic Properties of Soils (Numerical Problems on Seismic Reflection
Link NOC:Soil Dynamics Lecture 30 - Determination of Dynamic Properties of Soils (Block Vibration Test)
Link NOC:Soil Dynamics Lecture 31 - Liquefaction of Soils - Part 1
Link NOC:Soil Dynamics Lecture 32 - Liquefaction of Soils - Part 2
Link NOC:Soil Dynamics Lecture 33 - Liquefaction of Soils - Part 3
Link NOC:Soil Dynamics Lecture 34 - Liquefaction of Soils - Part 4
Link NOC:Soil Dynamics Lecture 35 - Liquefaction of Soils - Part 5
Link NOC:Soil Dynamics Lecture 36 - Machine Foundations (Design Criteria)
Link NOC:Soil Dynamics Lecture 37 - Analysis of Machine Foundations (Elastic Half Space Method) - Part 1
Link NOC:Soil Dynamics Lecture 38 - Analysis of Machine Foundations (Elastic Half Space Method) - Part 2
Link NOC:Soil Dynamics Lecture 39 - Analysis of Machine Foundations (Elastic Half Space Method) - Part 3
Link NOC:Soil Dynamics Lecture 40 - Analysis of Machine Foundations (Elastic Half Space Method) - Part 4
Link NOC:Soil Dynamics Lecture 41 - Analysis of Machine Foundations (Linear Elastic Weightless Spring Method - Part 1)
Link NOC:Soil Dynamics Lecture 42 - Analysis of Machine Foundations (For Reciprocating Machines) - Part 2
Link NOC:Soil Dynamics Lecture 43 - Analysis of Machine Foundations (For Reciprocating Machines) - Part 3
Link NOC:Soil Dynamics Lecture 44 - Analysis of Machine Foundations (For Reciprocating Machines) - Part 4
Link NOC:Soil Dynamics Lecture 45 - Analysis of Machine Foundations (For Impact Type Machines) - Part 1
Link NOC:Soil Dynamics Lecture 46 - Analysis of Machine Foundations (For Impact Type Machines) - Part 2
Link NOC:Soil Dynamics Lecture 47 - Analysis of Machine Foundations (For Rotary Machines) - Part 1
Link NOC:Soil Dynamics Lecture 48 - Analysis of Machine Foundations (For Rotary Machines) - Part 2
Link NOC:Soil Dynamics Lecture 49 - Analysis of Machine Foundations (For Rotary Machines) - Part 3
Link NOC:Soil Dynamics Lecture 50 - Analysis of Machine Foundations (For Rotary Machines) - Part 3 (Continued...)
Link NOC:Soil Dynamics Lecture 51 - Analysis of Pile Foundation Under Dynamic Loading - Part I
Link NOC:Soil Dynamics Lecture 52 - Analysis of Pile Foundation Under Dynamic Loading - Part II
Link NOC:Soil Dynamics Lecture 53 - Analysis of Pile Foundation Under Dynamic Loading - Part III
Link NOC:Soil Dynamics Lecture 54 - Analysis of Pile Foundation Under Dynamic Loading - Part IV
Link NOC:Soil Dynamics Lecture 55 - Analysis of Pile Foundation Under Dynamic Loading - Part V
Link NOC:Soil Dynamics Lecture 56 - Isolation of Vibration - Part 1
Link NOC:Soil Dynamics Lecture 57 - Isolation of Vibration - Part 2
Link NOC:Soil Dynamics Lecture 58 - Isolation of Vibration - Part 3
Link NOC:Soil Dynamics Lecture 59 - Isolation of Vibration - Part 4
Link NOC:Soil Dynamics Lecture 60 - Summary
Link NOC:Geotechnical Earthquake Engineering Lecture 1 - Introduction
Link NOC:Geotechnical Earthquake Engineering Lecture 2 - Causes of Earthquake
Link NOC:Geotechnical Earthquake Engineering Lecture 3 - Seismic Waves
Link NOC:Geotechnical Earthquake Engineering Lecture 4 - Seismic Waves (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 5 - Size of Earthquake
Link NOC:Geotechnical Earthquake Engineering Lecture 6 - Size of Earthquake (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 7 - Introduction
Link NOC:Geotechnical Earthquake Engineering Lecture 8 - Measurement of Ground Motion
Link NOC:Geotechnical Earthquake Engineering Lecture 9 - Ground Motion Parameters
Link NOC:Geotechnical Earthquake Engineering Lecture 10 - Ground Motion Parameters (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 11 - Ground Motion Parameters (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 12 - Ground Motion Parameters (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 13 - Ground Motion Parameters (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 14 - Estimation of Ground Motion Parameters
Link NOC:Geotechnical Earthquake Engineering Lecture 15 - Examples
Link NOC:Geotechnical Earthquake Engineering Lecture 16 - Examples (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 17 - Examples (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 18 - Field Tests
Link NOC:Geotechnical Earthquake Engineering Lecture 19 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 20 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 21 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 22 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 23 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 24 - Field Tests (Examples)
Link NOC:Geotechnical Earthquake Engineering Lecture 25 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 26 - Field Tests (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 27 - Laboratory and Model Tests
Link NOC:Geotechnical Earthquake Engineering Lecture 28 - Stress-Strain Behavior of Cyclically Loaded Soils
Link NOC:Geotechnical Earthquake Engineering Lecture 29 - Stress-Strain Behavior of Cyclically Loaded Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 30 - Stress-Strain Behavior of Cyclically Loaded Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 31 - Linear Approach
Link NOC:Geotechnical Earthquake Engineering Lecture 32 - Linear Approach (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 33 - Equivalent Linear and Non Linear Approach
Link NOC:Geotechnical Earthquake Engineering Lecture 34 - Evaluation of Liquefaction Resistance of Soils
Link NOC:Geotechnical Earthquake Engineering Lecture 35 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 36 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 37 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 38 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 39 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 40 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 41 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 42 - Evaluation of Liquefaction Resistance of Soils (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 43 - Liquefaction Susceptibility Criteria for Silts and Clays
Link NOC:Geotechnical Earthquake Engineering Lecture 44 - Liquefaction Susceptibility Criteria for Silts and Clays (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 45 - Liquefaction Susceptibility Criteria for Silts and Clays (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 46 - Liquefaction Susceptibility Criteria for Silts and Clays (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 47 - Settlement of Sand due to Earthquake Shaking
Link NOC:Geotechnical Earthquake Engineering Lecture 48 - Settlement of Sand due to Earthquake Shaking (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 49 - Seismic or Liquefaction Hazard Mitigation
Link NOC:Geotechnical Earthquake Engineering Lecture 50 - Seismic or Liquefaction Hazard Mitigation (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 51 - Seismic or Liquefaction Hazard Mitigation (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 52 - Seismic or Liquefaction Hazard Mitigation (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 53 - Seismic or Liquefaction Hazard Mitigation (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 54 - Seismic slope stability analysis: Pseudostatic Analysis
Link NOC:Geotechnical Earthquake Engineering Lecture 55 - Seismic slope stability analysis: Pseudostatic Analysis (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 56 - Seismic slope stability analysis: Newmark Sliding Block Analysis
Link NOC:Geotechnical Earthquake Engineering Lecture 57 - Seismic slope stability analysis: Newmark Sliding Block Analysis (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 58 - Seismic design of retaining walls
Link NOC:Geotechnical Earthquake Engineering Lecture 59 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 60 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 61 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 62 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 63 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 64 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 65 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 66 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 67 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 68 - Seismic design of retaining walls (Continued...)
Link NOC:Geotechnical Earthquake Engineering Lecture 69 - Seismic design of retaining walls (Continued...)
Link NOC:Earthquake Seismology Lecture 1 - Introduction
Link NOC:Earthquake Seismology Lecture 2 - Waves on a String
Link NOC:Earthquake Seismology Lecture 3 - Stress
Link NOC:Earthquake Seismology Lecture 4 - Strain tensor and Constitutive equations
Link NOC:Earthquake Seismology Lecture 5 - Equations of Motion
Link NOC:Earthquake Seismology Lecture 6 - Wavenumber vector, Slowness, P-and S-wave Polarization
Link NOC:Earthquake Seismology Lecture 7 - Seismic spectrum, Seismogram rotation, Spherical Waves
Link NOC:Earthquake Seismology Lecture 8 - Energy in the Plane Wave, Potentials at an Interface
Link NOC:Earthquake Seismology Lecture 9 - Boundary Conditions, Types Of Interfaces, Ray Theory, Reflection/Transmission
Link NOC:Earthquake Seismology Lecture 10 - Snell's law, Transmission and Reflection Coefficients, Fermat's Principle, Huygen's
Link NOC:Earthquake Seismology Lecture 11 - Precritical, Critical, and Postcritical waves, reflection and transmission coefficients
Link NOC:Earthquake Seismology Lecture 12 - Surface waves
Link NOC:Earthquake Seismology Lecture 13 - Rayleigh Waves
Link NOC:Earthquake Seismology Lecture 14 - Love waves
Link NOC:Earthquake Seismology Lecture 15 - Dispersion
Link NOC:Earthquake Seismology Lecture 16 - Dispersion example in the Earth and Tsunamis
Link NOC:Earthquake Seismology Lecture 17 - Normal modes
Link NOC:Earthquake Seismology Lecture 18 - Torsional and Spheroidal Modes
Link NOC:Earthquake Seismology Lecture 19 - Solving numerical problems
Link NOC:Earthquake Seismology Lecture 20 - Refraction seismology
Link NOC:Earthquake Seismology Lecture 21 - Refraction seismology (Continued...)
Link NOC:Earthquake Seismology Lecture 22 - Reflection seismology (Continued...)
Link NOC:Earthquake Seismology Lecture 23 - Earth as a constant velocity Distribution
Link NOC:Earthquake Seismology Lecture 24 - Multi Channel Data Geometry
Link NOC:Earthquake Seismology Lecture 25 - Seismic waves in spherical earth
Link NOC:Earthquake Seismology Lecture 26 - Velocity distribution
Link NOC:Earthquake Seismology Lecture 27 - Body waves
Link NOC:Earthquake Seismology Lecture 28 - Core Phases
Link NOC:Earthquake Seismology Lecture 29 - Velocity structure of upper mantle and lower mantle
Link NOC:Earthquake Seismology Lecture 30 - Anisotropic earth structure
Link NOC:Earthquake Seismology Lecture 31 - Anisotropic earth structure (Continued...)
Link NOC:Earthquake Seismology Lecture 32 - Attenuation and Anelasticity
Link NOC:Earthquake Seismology Lecture 33 - Attenuation and Anelasticity (Continued...)
Link NOC:Earthquake Seismology Lecture 34 - Attenuation and Anelasticity (Continued...)
Link NOC:Earthquake Seismology Lecture 35 - Composition of the mantle and core
Link NOC:Earthquake Seismology Lecture 36 - Composition of the mantle and core (Continued...)
Link NOC:Earthquake Seismology Lecture 37 - Composition of the mantle and core (Continued...)
Link NOC:Earthquake Seismology Lecture 38 - Composition of the mantle and core (Continued...)
Link NOC:Earthquake Seismology Lecture 39 - Earthquakes, focal mechanisms, moment tensors
Link NOC:Earthquake Seismology Lecture 40 - Earthquakes, focal mechanisms, moment tensors (Continued...)
Link NOC:Earthquake Seismology Lecture 41 - Earthquakes, focal mechanisms, moment tensors (Continued...)
Link NOC:Earthquake Seismology Lecture 42 - Earthquakes, focal mechanisms, moment tensors (Continued...)
Link NOC:Earthquake Seismology Lecture 43 - Earthquakes, focal mechanisms, moment tensors (Continued...)
Link NOC:Earthquake Seismology Lecture 44 - Brief on Earthquake geodesy
Link NOC:Earthquake Seismology Lecture 45 - Brief on Earthquake geodesy (Continued...)
Link NOC:Earthquake Seismology Lecture 46 - Brief on Earthquake geodesy (Continued...)
Link NOC:Earthquake Seismology Lecture 47 - Brief on Earthquake geodesy (Continued...)
Link NOC:Earthquake Seismology Lecture 48 - Source parameters, Earthquake statistics
Link NOC:Earthquake Seismology Lecture 49 - Source parameters, Earthquake statistics (Continued...)
Link NOC:Earthquake Seismology Lecture 50 - Source parameters, Earthquake statistics (Continued...)
Link NOC:Earthquake Seismology Lecture 51 - Source parameters, Earthquake statistics (Continued...)
Link NOC:Earthquake Seismology Lecture 52 - Source parameters, Earthquake statistics (Continued...)
Link NOC:Earthquake Seismology Lecture 53 - Seismology and Plate tectonics, Spreading centers, Subduction zones
Link NOC:Earthquake Seismology Lecture 54 - Seismology and Plate tectonics, Spreading centers, Subduction zones (Continued...)
Link NOC:Earthquake Seismology Lecture 55 - Seismology and Plate tectonics, Spreading centers, Subduction zones (Continued...)
Link NOC:Earthquake Seismology Lecture 56 - Numerical Problems in Seismology
Link NOC:Earthquake Seismology Lecture 57 - Numerical Problems in Seismology (Continued...)
Link NOC:Engineering Geology Lecture 1 - Introduction and significance
Link NOC:Engineering Geology Lecture 2 - Enginnering geological ground, concept and categorization
Link NOC:Engineering Geology Lecture 3 - Geomaterial: Rock, rock material and rock strata, concept of stress, deformation ...
Link NOC:Engineering Geology Lecture 4 - Stress-strain behaviour and mechanical parameters of rocks
Link NOC:Engineering Geology Lecture 5 - Geomorphology of river valley and mountainous regions and landforms
Link NOC:Engineering Geology Lecture 6 - Different types of water and distribution of water, different type of rocks and ...
Link NOC:Engineering Geology Lecture 7 - Surface and subsurface water and their interaction with geoground
Link NOC:Engineering Geology Lecture 8 - Weathering processes and classification
Link NOC:Engineering Geology Lecture 9 - Chemical weathering and impact of weathering
Link NOC:Engineering Geology Lecture 10 - Weatherability and weathering indices
Link NOC:Engineering Geology Lecture 11 - Characteristic of rocks and rock strata and some physical property
Link NOC:Engineering Geology Lecture 12 - Common physical attributes of geomaterials
Link NOC:Engineering Geology Lecture 13 - Engineering properties of rocks
Link NOC:Engineering Geology Lecture 14 - Geotechnical characteristic of joint and approach for rock mass classification
Link NOC:Engineering Geology Lecture 15 - Rock mass classification
Link NOC:Engineering Geology Lecture 16 - About construction materials and dimensional stone
Link NOC:Engineering Geology Lecture 17 - Crushed stone and suitability of rocks as construction materials
Link NOC:Engineering Geology Lecture 18 - Aggregate and deleterious materials
Link NOC:Engineering Geology Lecture 19 - Pozzolan and soil
Link NOC:Engineering Geology Lecture 20 - Cement-aggregate reaction
Link NOC:Engineering Geology Lecture 21 - Concept and classification of dams
Link NOC:Engineering Geology Lecture 22 - Classification of dams based on materials used
Link NOC:Engineering Geology Lecture 23 - Classification of dam based on design and function
Link NOC:Engineering Geology Lecture 24 - Arch dams and classification dams based on use and function and technical ...
Link NOC:Engineering Geology Lecture 25 - Forces acting on dam and engineering geological characteristics for dam construction
Link NOC:Engineering Geology Lecture 26 - About tunnels and classification of tunnels
Link NOC:Engineering Geology Lecture 27 - Tunnelling methods
Link NOC:Engineering Geology Lecture 28 - Treatments
Link NOC:Engineering Geology Lecture 29 - Anchoring of rock strata : grouting
Link NOC:Engineering Geology Lecture 30 - Anchoring of rock strata : rock bolting
Link NOC:Engineering Geology Lecture 31 - Categorization of major geological structures affecting stability of engineering ...
Link NOC:Engineering Geology Lecture 32 - Major geological structures Fold, Faults, joints
Link NOC:Engineering Geology Lecture 33 - Major geological structures: sedimentary structures, unconformity and effect ...
Link NOC:Engineering Geology Lecture 34 - Effects of beddings, folds, faults, joints and unconformity on stability of dams
Link NOC:Engineering Geology Lecture 35 - Effects of beddings, folds, faults, joints and unconformity on ground control ...
Link NOC:Engineering Geology Lecture 36 - Rock-load/ground pressure, factors affecting ground pressure
Link NOC:Engineering Geology Lecture 37 - Methods for determination of rock load: empirical approaches
Link NOC:Engineering Geology Lecture 38 - Methods for determination of rock load: empirical, semi-empirical approaches
Link NOC:Engineering Geology Lecture 39 - Methods for determination of rock load: Structural defect and rock-support ...
Link NOC:Engineering Geology Lecture 40 - Unified approach, support system, and mechanics of rock bolt working
Link NOC:Engineering Geology Lecture 41 - About road and highway features and pavement
Link NOC:Engineering Geology Lecture 42 - Stress distributions and engineering geological facets of new road/highway alignments
Link NOC:Engineering Geology Lecture 43 - About bridges, classifications and working mechanism
Link NOC:Engineering Geology Lecture 44 - Engineering geological facets of bridges and material quality
Link NOC:Engineering Geology Lecture 45 - Building, building foundation and foundation strata
Link NOC:Engineering Geology Lecture 46 - Landslide
Link NOC:Engineering Geology Lecture 47 - Landslide Hazards Zonation, causes and mitigation
Link NOC:Engineering Geology Lecture 48 - Slope stability aspects of landslide
Link NOC:Engineering Geology Lecture 49 - Earthquakes
Link NOC:Engineering Geology Lecture 50 - Induced seismicity
Link NOC:Engineering Geology Lecture 51 - Sea, seacoast, features and agents
Link NOC:Engineering Geology Lecture 52 - Wave propagations and concept of surf zones and breaking of waves
Link NOC:Engineering Geology Lecture 53 - Waves propagation in different depth and wave mechanics
Link NOC:Engineering Geology Lecture 54 - Erosion induced and deposition assisted sea landforms
Link NOC:Engineering Geology Lecture 55 - Sea shore hazards, mitigation and protective structures
Link NOC:Engineering Geology Lecture 56 - Energy and introductory aspects of geothermal energy
Link NOC:Engineering Geology Lecture 57 - Geothermal resources and enhanced geothermal systems
Link NOC:Engineering Geology Lecture 58 - Geotechnical facets of gas hydrate
Link NOC:Engineering Geology Lecture 59 - Engineering geological facets of CBM and shale gas
Link NOC:Engineering Geology Lecture 60 - Engineering geological aspect of carbon capture, usage and storage (CCUS)
Link Advanced Structural Analysis Lecture 1 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 2 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 3 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 4 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 5 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 6 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 7 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 8 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 9 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 10 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 11 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 12 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 13 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 14 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 15 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 16 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 17 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 18 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 19 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 20 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 21 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 22 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 23 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 24 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 25 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 26 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 27 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 28 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 29 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 30 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 31 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 32 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 33 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 34 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 35 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 36 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 37 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 38 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 39 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 40 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 41 - Life beyond Structures & Analysis
Link Finite Element Analysis Lecture 1
Link Finite Element Analysis Lecture 2
Link Finite Element Analysis Lecture 3
Link Finite Element Analysis Lecture 4
Link Finite Element Analysis Lecture 5
Link Finite Element Analysis Lecture 6
Link Finite Element Analysis Lecture 7
Link Finite Element Analysis Lecture 8
Link Finite Element Analysis Lecture 9
Link Finite Element Analysis Lecture 10
Link Finite Element Analysis Lecture 11
Link Finite Element Analysis Lecture 12
Link Finite Element Analysis Lecture 13
Link Finite Element Analysis Lecture 14
Link Finite Element Analysis Lecture 15
Link Finite Element Analysis Lecture 16
Link Finite Element Analysis Lecture 17
Link Finite Element Analysis Lecture 18
Link Finite Element Analysis Lecture 19
Link Finite Element Analysis Lecture 20
Link Finite Element Analysis Lecture 21
Link Finite Element Analysis Lecture 22
Link Finite Element Analysis Lecture 23
Link Finite Element Analysis Lecture 24
Link Finite Element Analysis Lecture 25
Link Finite Element Analysis Lecture 26
Link Finite Element Analysis Lecture 27
Link Finite Element Analysis Lecture 28
Link Finite Element Analysis Lecture 29
Link Finite Element Analysis Lecture 30
Link Finite Element Analysis Lecture 31
Link Finite Element Analysis Lecture 32
Link Finite Element Analysis Lecture 33
Link Finite Element Analysis Lecture 34
Link Finite Element Analysis Lecture 35
Link Finite Element Analysis Lecture 36
Link Finite Element Analysis Lecture 37
Link Finite Element Analysis Lecture 38
Link Finite Element Analysis Lecture 39
Link Finite Element Analysis Lecture 40
Link Geosynthetics and Reinforced Soil Structures Lecture 1 - Introduction & Need for Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 2 - Types and Functions of Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 3 - Polymers in Geosynthetics and Manufacturing Techniques
Link Geosynthetics and Reinforced Soil Structures Lecture 4 - Strength Analysis of Reinforced Soils - I
Link Geosynthetics and Reinforced Soil Structures Lecture 5 - Strength Analysis of Reinforced Soils - II
Link Geosynthetics and Reinforced Soil Structures Lecture 6 - Testing of Geosynthetics - I
Link Geosynthetics and Reinforced Soil Structures Lecture 7 - Testing of Geosynthetics - II
Link Geosynthetics and Reinforced Soil Structures Lecture 8 - Testing of Geosynthetics - III
Link Geosynthetics and Reinforced Soil Structures Lecture 9 - Different Types of Soil Retaining Structures
Link Geosynthetics and Reinforced Soil Structures Lecture 10 - Construction Aspects of Geosynthetic Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 11 - Design Codes for Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 12 - External Stability Analysis of Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 13 - Seismic Loads and Internal Stability Analysis of Reinforced Soil Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 14 - Testing Requirements for Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 15 - Design Example of Reinforced Soil Retaining Walls - I
Link Geosynthetics and Reinforced Soil Structures Lecture 16 - Design Example of Reinforced Soil Retaining Walls - II
Link Geosynthetics and Reinforced Soil Structures Lecture 17 - Design Example of Reinforced Soil Retaining Walls - III
Link Geosynthetics and Reinforced Soil Structures Lecture 18 - Design Example of Reinforced Soil Retaining Walls - IV
Link Geosynthetics and Reinforced Soil Structures Lecture 19 - Case Study of Construction of Very High Tiered Reinforced Soil Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 20 - Controlled Yielding to Reduce Lateral Earth Pressures on Rigid Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 21 - Geosynthetic Reinforced Soil Embankments - I
Link Geosynthetics and Reinforced Soil Structures Lecture 22 - Geosynthetic Reinforced Soil Embankments - II
Link Geosynthetics and Reinforced Soil Structures Lecture 23 - Two-Part Wedge Analysis of Reinforced Soil Embankments
Link Geosynthetics and Reinforced Soil Structures Lecture 24 - Soil Embankments Supported on Geocell Mattresses
Link Geosynthetics and Reinforced Soil Structures Lecture 25 - Accelerated Pre-Consolidation of Soft Clay Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 26 - Geosynthetic Reinforced Pile Systems for High Embankments
Link Geosynthetics and Reinforced Soil Structures Lecture 27 - Geosynthetic Encasement for Stronger and Stiffer Stone Columns
Link Geosynthetics and Reinforced Soil Structures Lecture 28 - Response of Footings Resting on Reinforced Foundation Soils
Link Geosynthetics and Reinforced Soil Structures Lecture 29 - Bearing Capacity Analysis of Footings Resting on Reinforced Foundation Soils
Link Geosynthetics and Reinforced Soil Structures Lecture 30 - Design and Construction of Container Yards Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 31 - Geosynthetics in Flexible Pavements - I
Link Geosynthetics and Reinforced Soil Structures Lecture 32 - Geosynthetics in Flexible Pavements - II
Link Geosynthetics and Reinforced Soil Structures Lecture 33 - Geosynthetics in Flexible Pavements and Carbon Foot Print Analysis
Link Geosynthetics and Reinforced Soil Structures Lecture 34 - Filtration of Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 35 - Drainage Applications of Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 36 - Erosion Control of Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 37 - Sustainable Infrastructure Development & Natural Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 38 - Introduction to Geosynthetics in Landfills
Link Geosynthetics and Reinforced Soil Structures Lecture 39 - Case Study of the Construction of Airport Runway at Pakyong, Sikkim Using Geosynthetics (Guest Lecture)
Link Geosynthetics and Reinforced Soil Structures Lecture 40 - Landfill Engineering Systems (Guest Lecture)
Link Modern Construction Materials Lecture 1 - Prologue
Link Modern Construction Materials Lecture 2 - The Science, Engineering and Technology of Materials An Introduction - I
Link Modern Construction Materials Lecture 3 - The Science, Engineering and Technology of Materials An Introduction - II
Link Modern Construction Materials Lecture 4 - Review of Atomic Bonding - I
Link Modern Construction Materials Lecture 5 - Review of Atomic Bonding - II
Link Modern Construction Materials Lecture 6 - Structure of Solids - I
Link Modern Construction Materials Lecture 7 - Structure of Solids - II
Link Modern Construction Materials Lecture 8 - Structure of Solids - III
Link Modern Construction Materials Lecture 9 - Movement of Atoms in Solids
Link Modern Construction Materials Lecture 10 - Development of Microstructure - I
Link Modern Construction Materials Lecture 11 - Development of Microstructure - II
Link Modern Construction Materials Lecture 12 - Surface Properties
Link Modern Construction Materials Lecture 13 - Response to Stress - Part 1
Link Modern Construction Materials Lecture 14 - Response to Stress - Part 2
Link Modern Construction Materials Lecture 15 - Response to Stress - Part 3
Link Modern Construction Materials Lecture 16 - Failure Theories
Link Modern Construction Materials Lecture 17 - Fracture Mechanics - Part 1
Link Modern Construction Materials Lecture 18 - Fracture Mechanics - Part 2
Link Modern Construction Materials Lecture 19 - Rheology of Liquids and Solids
Link Modern Construction Materials Lecture 20 - Thermal Properties
Link Modern Construction Materials Lecture 21 - Review of Construction Materials
Link Modern Construction Materials Lecture 22 - Wood and Wood Products - 1
Link Modern Construction Materials Lecture 23 - Wood and Wood Products - 2
Link Modern Construction Materials Lecture 24 - Wood and Wood Products - Guest Lecture
Link Modern Construction Materials Lecture 25 - Polymers
Link Modern Construction Materials Lecture 26 - Fibre Reinforced Polymer - 1
Link Modern Construction Materials Lecture 27 - Fibre Reinforced Polymer - 2
Link Modern Construction Materials Lecture 28 - Metals - Part 1
Link Modern Construction Materials Lecture 29 - Metals - Part 2
Link Modern Construction Materials Lecture 30 - Metals - Part 3
Link Modern Construction Materials Lecture 31 - Bituminous Material - Part 1
Link Modern Construction Materials Lecture 32 - Bituminous Material - Part 2
Link Modern Construction Materials Lecture 33 - Concrete - Part 1
Link Modern Construction Materials Lecture 34 - Concrete - Part 2
Link Modern Construction Materials Lecture 35 - Concrete - Part 3
Link Modern Construction Materials Lecture 36 - Concrete - Part 4
Link Modern Construction Materials Lecture 37 - Concrete - Part 5
Link Modern Construction Materials Lecture 38 - Glass - Guest Lecture
Link Modern Construction Materials Lecture 39 - Social Perception - Guest Lecture
Link Modern Construction Materials Lecture 40 - Water Proofing - Guest Lecture
Link Modern Construction Materials Lecture 41 - Floor Finishes - Guest Lecture
Link Modern Construction Materials Lecture 42 - Anchors - Guest Lecture
Link Urban transportation planning Lecture 1 - Introduction
Link Urban transportation planning Lecture 2 - Introduction (Continued...)
Link Urban transportation planning Lecture 3 - Introduction (Continued...)
Link Urban transportation planning Lecture 4 - Course Outline
Link Urban transportation planning Lecture 5 - Conceptual Aspects
Link Urban transportation planning Lecture 6 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 7 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 8 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 9 - Trip Generation Analysis
Link Urban transportation planning Lecture 10 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 11 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 12 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 13 - Modal Split Analysis
Link Urban transportation planning Lecture 14 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 15 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 16 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 17 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 18 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 19 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 20 - Trip Distribution Analysis
Link Urban transportation planning Lecture 21 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 22 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 23 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 24 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 25 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 26 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 27 - Route Assignment
Link Urban transportation planning Lecture 28 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 29 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 30 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 31 - Transportation Surveys
Link Urban transportation planning Lecture 32 - Transportation Surveys (Continued...)
Link Urban transportation planning Lecture 33 - Transportation Surveys (Continued...)
Link Urban transportation planning Lecture 34 - Transport Related Land-Use Models
Link Urban transportation planning Lecture 35 - Transport Related Land-Use Models (Continued...)
Link Urban transportation planning Lecture 36 - Transport Related Land-Use Models (Continued...)
Link Urban transportation planning Lecture 37 - Urban Structure
Link Urban transportation planning Lecture 38 - Urban Structure (Continued...)
Link Urban transportation planning Lecture 39 - Urban Goods Movement
Link Urban transportation planning Lecture 40 - Urban Goods Movement (Continued...)
Link Mechanics of Solids Lecture 1 - Planar Rigid Body
Link Mechanics of Solids Lecture 2 - Degrees of freedom
Link Mechanics of Solids Lecture 3 - Equations of Equilibrium
Link Mechanics of Solids Lecture 4 - Planar rigid body Statics - Example 1
Link Mechanics of Solids Lecture 5 - Rigid Body Statics - Example 2
Link Mechanics of Solids Lecture 6 - Structural Systems with rigid bodies
Link Mechanics of Solids Lecture 7 - Types of 1-D Structural Elements
Link Mechanics of Solids Lecture 8 - Trusses - Axial members
Link Mechanics of Solids Lecture 9 - Analysis of Truss Systems
Link Mechanics of Solids Lecture 10 - Stability of Structural systems
Link Mechanics of Solids Lecture 11 - Trusses - additional discussions
Link Mechanics of Solids Lecture 12 - Trusses - Method of Sections
Link Mechanics of Solids Lecture 13 - Beams - Example 1
Link Mechanics of Solids Lecture 14 - Beams - BMD & SFD
Link Mechanics of Solids Lecture 15 - Beams - loading, shear and BM relationships
Link Mechanics of Solids Lecture 16 - Virtual work method
Link Mechanics of Solids Lecture 17 - Virtual displacements
Link Mechanics of Solids Lecture 18 - Finding virtual displacements
Link Mechanics of Solids Lecture 19 - Virtual Work Method - Example 1
Link Mechanics of Solids Lecture 20 - Virtual Work Method - Example 2
Link Mechanics of Solids Lecture 21 - Static Friction - an understanding
Link Mechanics of Solids Lecture 22 - Belt Friction
Link Mechanics of Solids Lecture 23 - Friction : Solving Problems
Link Mechanics of Solids Lecture 24 - General concepts - rigid bodies
Link Mechanics of Solids Lecture 25 - Motion of a rigid body = a translation + a rotation
Link Mechanics of Solids Lecture 26 - Motion of a point of the rigid body
Link Mechanics of Solids Lecture 27 - Motion of one point on a rigid body relative to another
Link Mechanics of Solids Lecture 28 - Understanding rotational motion r_dot = w x r
Link Mechanics of Solids Lecture 29 - Kinematics velocity and acceleration
Link Mechanics of Solids Lecture 30 - Understanding Coriolis Acceleration
Link Mechanics of Solids Lecture 31 - Kinematics - Solving problems
Link Mechanics of Solids Lecture 32 - Equations of motion of a rigid body
Link Mechanics of Solids Lecture 33 - Tips and Techniques 1/2
Link Mechanics of Solids Lecture 34 - Tips and Techniques 2/2
Link Mechanics of Solids Lecture 35 - Solving Problems 1/4
Link Mechanics of Solids Lecture 36 - Solving Problems 2/4
Link Mechanics of Solids Lecture 37 - Solving Problems 3/4
Link Mechanics of Solids Lecture 38 - Solving Problems 4/4
Link Mechanics of Solids Lecture 39 - Engineering Statics - Solving problems
Link Pre-stressed Concrete Structures Lecture 1 - Prestressing System
Link Pre-stressed Concrete Structures Lecture 2 - Types of Prestressing
Link Pre-stressed Concrete Structures Lecture 3 - Prestressing System and Devices (Pre-Tensioning)
Link Pre-stressed Concrete Structures Lecture 4 - Prestressing System and Devices (Post-Tensioning)
Link Pre-stressed Concrete Structures Lecture 5 - Concrete - Part-1
Link Pre-stressed Concrete Structures Lecture 6 - Concrete, Grout - Part-2
Link Pre-stressed Concrete Structures Lecture 7 - Prestressing Steel
Link Pre-stressed Concrete Structures Lecture 8 - Losses in Prestress
Link Pre-stressed Concrete Structures Lecture 9 - Friction & Anchorage Slip
Link Pre-stressed Concrete Structures Lecture 10 - Creep,Shrinkage & Relaxation Losses
Link Pre-stressed Concrete Structures Lecture 11 - Analysis of Members
Link Pre-stressed Concrete Structures Lecture 12 - Analysis of Members Under Flexure
Link Pre-stressed Concrete Structures Lecture 13 - Cracking Moment,Kern Point and Pressure Line
Link Pre-stressed Concrete Structures Lecture 14 - Analysis of Rectangular sections
Link Pre-stressed Concrete Structures Lecture 15 - Analysis of Flanged Sections
Link Pre-stressed Concrete Structures Lecture 16 - Analysis of Partially Prestressed Section
Link Pre-stressed Concrete Structures Lecture 17 - Design of Members
Link Pre-stressed Concrete Structures Lecture 18 - Design of Members for Flexure (Type1 Members)
Link Pre-stressed Concrete Structures Lecture 19 - Design of Members for Flexure (Type1 & Type3)
Link Pre-stressed Concrete Structures Lecture 20 - Choice of Sections and Determination of Limiting
Link Pre-stressed Concrete Structures Lecture 21 - Magnel`s Graphical Method
Link Pre-stressed Concrete Structures Lecture 22 - Detailing Requirements
Link Pre-stressed Concrete Structures Lecture 23 - Analysis and Design for Shear and Torsion
Link Pre-stressed Concrete Structures Lecture 24 - Design for Shear - Part-1
Link Pre-stressed Concrete Structures Lecture 25 - Design for Shear - Part-2
Link Pre-stressed Concrete Structures Lecture 26 - Analysis of Torsion
Link Pre-stressed Concrete Structures Lecture 27 - Analysis of Torsion - Part-1
Link Pre-stressed Concrete Structures Lecture 28 - Analysis of Torsion - Part-2
Link Pre-stressed Concrete Structures Lecture 29 - Calculations of Deflection and Crack Width
Link Pre-stressed Concrete Structures Lecture 30 - Transmission of Prestress
Link Pre-stressed Concrete Structures Lecture 31 - Post-tensioned Members
Link Pre-stressed Concrete Structures Lecture 32 - Cantilever Beams
Link Pre-stressed Concrete Structures Lecture 33 - Continuous Beams - Part-1
Link Pre-stressed Concrete Structures Lecture 34 - Continuous Beams - Part-2
Link Pre-stressed Concrete Structures Lecture 35 - Composite Sections
Link Pre-stressed Concrete Structures Lecture 36 - One-Way Slabs
Link Pre-stressed Concrete Structures Lecture 37 - Two-Way Slabs - Part-1
Link Pre-stressed Concrete Structures Lecture 38 - Two-Way Slabs - Part-2
Link Pre-stressed Concrete Structures Lecture 39 - compression Members
Link Pre-stressed Concrete Structures Lecture 40 - Circular Prestressing, Conclusion
Link Water and Waste Water Engineering Lecture 1 - Introduction To Water & Waste Water Engineering
Link Water and Waste Water Engineering Lecture 2 - Water & Waste Water Quality Enhancement
Link Water and Waste Water Engineering Lecture 3 - Water & Waste Water Quantity Estimation
Link Water and Waste Water Engineering Lecture 4 - Water & Waste Water Quantity Estimation (Continued...)
Link Water and Waste Water Engineering Lecture 5 - Water & Waste Water Characteristics
Link Water and Waste Water Engineering Lecture 6 - Water & Waste Water Characteristics (Continued...)
Link Water and Waste Water Engineering Lecture 7 - Water Treatment System Unit Operations
Link Water and Waste Water Engineering Lecture 8 - Sedimentation
Link Water and Waste Water Engineering Lecture 9 - Sedimentation (Continued...)
Link Water and Waste Water Engineering Lecture 10 - Coagulation & Flocculation
Link Water and Waste Water Engineering Lecture 11 - Coagulation & Flocculation (Continued...)
Link Water and Waste Water Engineering Lecture 12 - Softening
Link Water and Waste Water Engineering Lecture 13 - Filtration
Link Water and Waste Water Engineering Lecture 14 - Filtration (Continued...)
Link Water and Waste Water Engineering Lecture 15 - Disinfection
Link Water and Waste Water Engineering Lecture 16 - Introduction To Domestic Waste Water Treatment
Link Water and Waste Water Engineering Lecture 17 - Physical Unit Processes For Waste Water Treatment
Link Water and Waste Water Engineering Lecture 18 - Introduction To Microbiology
Link Water and Waste Water Engineering Lecture 19 - Microbiology - (Continued...)
Link Water and Waste Water Engineering Lecture 20 - Waste Water Treatment Reactor Analysis
Link Water and Waste Water Engineering Lecture 21 - Biological Unit Processes - Activated Sludge Process
Link Water and Waste Water Engineering Lecture 22 - Activated Sludge Process - Modification
Link Water and Waste Water Engineering Lecture 23 - Activated Sludge Process (Continued...)
Link Water and Waste Water Engineering Lecture 24 - Aeration,Nitrification And Denitrification
Link Water and Waste Water Engineering Lecture 25 - Natural Waste Water Treatment Systems: Ponds & Lagoons
Link Water and Waste Water Engineering Lecture 26 - Attached Growth Aerobic Process: Trickling Filters And Rotating Biological Contractors
Link Water and Waste Water Engineering Lecture 27 - Anaerobic Treatment
Link Water and Waste Water Engineering Lecture 28 - Anaerobic Process-UASB Reactor (Continued...)
Link Water and Waste Water Engineering Lecture 29 - UASB- Continued & Sludge Treatment
Link Water and Waste Water Engineering Lecture 30 - Sludge Treatment (Continued...)
Link Water and Waste Water Engineering Lecture 31 - Sludge Treatment (Continued...) & Waste Water Disposal
Link Water and Waste Water Engineering Lecture 32 - Waste Water Disposal And Reuse
Link Water and Waste Water Engineering Lecture 33 - Advanced Waste Water Treatment
Link Water and Waste Water Engineering Lecture 34 - Adsorption
Link Water and Waste Water Engineering Lecture 35 - Ion Exchange, Advanced Oxidation Process
Link Water and Waste Water Engineering Lecture 36 - Industrial Waste Water Treatment
Link Water and Waste Water Engineering Lecture 37 - Water Distribution Networks
Link Water and Waste Water Engineering Lecture 38 - Sanitary sewerage systems
Link Water and Waste Water Engineering Lecture 39 - Storm water sewerage systems
Link Water and Waste Water Engineering Lecture 40 - Intake Structures And Pumping Installations
Link NOC:Sustainable River Basin Management Lecture 1
Link NOC:Sustainable River Basin Management Lecture 2
Link NOC:Sustainable River Basin Management Lecture 3
Link NOC:Sustainable River Basin Management Lecture 4
Link NOC:Sustainable River Basin Management Lecture 5
Link NOC:Sustainable River Basin Management Lecture 6
Link NOC:Sustainable River Basin Management Lecture 7
Link NOC:Sustainable River Basin Management Lecture 8
Link NOC:Sustainable River Basin Management Lecture 9
Link NOC:Sustainable River Basin Management Lecture 10
Link NOC:Sustainable River Basin Management Lecture 11
Link NOC:Sustainable River Basin Management Lecture 12
Link NOC:Sustainable River Basin Management Lecture 13
Link NOC:Sustainable River Basin Management Lecture 14
Link NOC:Sustainable River Basin Management Lecture 15
Link NOC:Sustainable River Basin Management Lecture 16
Link NOC:Sustainable River Basin Management Lecture 17
Link NOC:Sustainable River Basin Management Lecture 18
Link NOC:Sustainable River Basin Management Lecture 19
Link NOC:Sustainable River Basin Management Lecture 20
Link NOC:Sustainable River Basin Management Lecture 21
Link NOC:Sustainable River Basin Management Lecture 22
Link NOC:Sustainable River Basin Management Lecture 23
Link NOC:Sustainable River Basin Management Lecture 24
Link NOC:Sustainable River Basin Management Lecture 25
Link NOC:Sustainable River Basin Management Lecture 26
Link NOC:Sustainable River Basin Management Lecture 27
Link NOC:Sustainable River Basin Management Lecture 28
Link NOC:Sustainable River Basin Management Lecture 29
Link NOC:Sustainable River Basin Management Lecture 30
Link NOC:Sustainable River Basin Management Lecture 31
Link NOC:Sustainable River Basin Management Lecture 32
Link NOC:Sustainable River Basin Management Lecture 33
Link NOC:Sustainable River Basin Management Lecture 34
Link NOC:Sustainable River Basin Management Lecture 35
Link NOC:Sustainable River Basin Management Lecture 36
Link NOC:Sustainable River Basin Management Lecture 37
Link NOC:Sustainable River Basin Management Lecture 38
Link NOC:Sustainable River Basin Management Lecture 39
Link NOC:Sustainable River Basin Management Lecture 40
Link NOC:Project Planning and Control Lecture 1 - What is Project Management? Is Project Management an Art/Science ?
Link NOC:Project Planning and Control Lecture 2 - Objectives of a Project, Scientific Way of Managing of Objectives
Link NOC:Project Planning and Control Lecture 3 - Course Scope and Plan, Questions and Discussions
Link NOC:Project Planning and Control Lecture 4 - Construction Industry and National Growth
Link NOC:Project Planning and Control Lecture 5 - Project Stakeholders, Project Phases, Project Organization
Link NOC:Project Planning and Control Lecture 6 - Project Scheduling Levels (Scheduling Engineer Responsibilities)
Link NOC:Project Planning and Control Lecture 7 - Time Management - Overview
Link NOC:Project Planning and Control Lecture 8 - Basics of Work Breakdown Structure (WBS)
Link NOC:Project Planning and Control Lecture 9 - Tools for Time Management
Link NOC:Project Planning and Control Lecture 10 - Gantt / Bar Chart - History, Representation, Progress Monitoring, Uses, Steps to draw a Bar Chart
Link NOC:Project Planning and Control Lecture 11 - Develop a Bar Chart (Exercise)
Link NOC:Project Planning and Control Lecture 12 - Bar Charts for Resource Usage, Pros and Cons
Link NOC:Project Planning and Control Lecture 13 - Duration Estimation - Types, Inputs, Methods, Parametric Estimation
Link NOC:Project Planning and Control Lecture 14 - Factors influencing Productivity, Example for Ideal Productivity, Factored Productivity and Working Time Factor
Link NOC:Project Planning and Control Lecture 15 - Piling Activity Example, Applicability of different methods to Estimate Activity Duration
Link NOC:Project Planning and Control Lecture 16 - Summary of Key Topics, Types of Networks
Link NOC:Project Planning and Control Lecture 17 - Networks - Introduction, Techniques
Link NOC:Project Planning and Control Lecture 18 - Representing Results in a Bar Chart, AON Example-2
Link NOC:Project Planning and Control Lecture 19 - Introduction to Floats, Types of Floats and Example-1 Discussion
Link NOC:Project Planning and Control Lecture 20 - Example 4, Usage of Floats for Project Decisions
Link NOC:Project Planning and Control Lecture 21 - Two-Span Bridge : Activity Identification and Duration Estimation (Continued...)
Link NOC:Project Planning and Control Lecture 22 - Two-Span Bridge : Activity Identification and Duration Estimation
Link NOC:Project Planning and Control Lecture 23 - Two-Span Bridge : Activity- Duration- Predecessors
Link NOC:Project Planning and Control Lecture 24 - Review Network Analysis Concepts, Apply Network Analysis to Two-Span Bridge (Continued...)
Link NOC:Project Planning and Control Lecture 25 - Two-Span Bridge : Network Analysis
Link NOC:Project Planning and Control Lecture 26 - Two-Span Bridge : Resource Constraints in Network Logic
Link NOC:Project Planning and Control Lecture 27 - Fast-Tracking vs Crashing, Relationship between Activity Direct Cost and Activity Duration - Assumptions
Link NOC:Project Planning and Control Lecture 28 - Time-Cost trade-off : ABCD Example Project, Steps for Crashing
Link NOC:Project Planning and Control Lecture 29 - Time-Cost trade-off : Class Exercise-2
Link NOC:Project Planning and Control Lecture 30 - Time-Cost trade-off : Problem-3, Tabulation Approach
Link NOC:Project Planning and Control Lecture 31 - Incorporating Factors such as Bonus and Penalty; Problem-4
Link NOC:Project Planning and Control Lecture 32 - What is Resource?, Influence of Resources on Schedule, Two-Span Bridge Example, Resource Decisions; ABCD Example Project; Resource Over-Allocation; Example-2
Link NOC:Project Planning and Control Lecture 33 - Projects and Resources, Example of Two Resources, Exercise, Two-Span Bridge Example
Link NOC:Project Planning and Control Lecture 34 - Review Problem-1; Problem-2 (Cash Resource); Resolving Over-Allocation
Link NOC:Project Planning and Control Lecture 35 - Problem 1 - Two Resources; Resolving Resource Allocation Problems
Link NOC:Project Planning and Control Lecture 36 - Resource Profile Requirements
Link NOC:Project Planning and Control Lecture 37 - Resource Leveling - Example Network
Link NOC:Project Planning and Control Lecture 38 - Minimum Moment Concept
Link NOC:Project Planning and Control Lecture 39 - Applying Improvement Factor - Illustration
Link NOC:Project Planning and Control Lecture 40 - Introduction to Precedence Diagramming Method (PDM)
Link NOC:Project Planning and Control Lecture 41 - PDM network representation and its issues, Network Calculation
Link NOC:Project Planning and Control Lecture 42 - PDM – Problem #1
Link NOC:Project Planning and Control Lecture 43 - Issues in PDM, Negative Lags, Problem #2 Solution
Link NOC:Project Planning and Control Lecture 44 - PDM – Analysis with non-continuous duration, Floats
Link NOC:Project Planning and Control Lecture 45 - Defining Relationship (Based on Construction Method) - Simple Shed
Link NOC:Project Planning and Control Lecture 46 - Project Monitoring & Control – Typical Project Time Monitoring Process, Levels and Frequency of updates
Link NOC:Project Planning and Control Lecture 47 - Project Control Process, Daily Progress Report, Macro Level Update- Data Need, Standard Progress Reports
Link NOC:Project Planning and Control Lecture 48 - Application: Two Span Bridge – ES Schedule
Link NOC:Project Planning and Control Lecture 49 - Review of Key Issues in Project Monitoring, Earned Value Concept Through Examples
Link NOC:Project Planning and Control Lecture 50 - Basic Earned Value Definitions and Terminology, Summary
Link NOC:Project Planning and Control Lecture 51 - Uncertainty in Project Schedules
Link NOC:Project Planning and Control Lecture 52 - PERT Background & Assumptions, Stepwise Procedure
Link NOC:Project Planning and Control Lecture 53 - PERT Example Problem, Summary
Link NOC:Project Planning and Control Lecture 54 - Course Conclusion
Link NOC:Project Planning and Control Lecture 55 - Emerging Trends / Tools in Project Planning
Link NOC:Project Planning and Control Lecture 56 - Industry Perspective – Prof. N. Raghavan
Link NOC:Project Planning and Control Lecture 57 - Final Exam Pattern, Acknowledgements
Link NOC:Structural Dynamics Lecture 1 - Module 1: Introduction of Structural Dynamics
Link NOC:Structural Dynamics Lecture 2 - Module 2: Types of Analysis
Link NOC:Structural Dynamics Lecture 3 - Module 3: Degrees of Freedom
Link NOC:Structural Dynamics Lecture 4 - Module 4: Vibrations of SDOF Systems
Link NOC:Structural Dynamics Lecture 5 - Module 5: Methods Solution of Equilibrium Equation
Link NOC:Structural Dynamics Lecture 6 - Module 6: UnDamped free Vibration
Link NOC:Structural Dynamics Lecture 7 - What is MATLAB?
Link NOC:Structural Dynamics Lecture 8 - Getting Started with MATLAB Online
Link NOC:Structural Dynamics Lecture 9 - MATLAB Variables
Link NOC:Structural Dynamics Lecture 10 - MATLAB as a Calculator
Link NOC:Structural Dynamics Lecture 11 - MATLAB Functions
Link NOC:Structural Dynamics Lecture 12 - Creating Vectors
Link NOC:Structural Dynamics Lecture 13 - Creating Uniformly Spaced Vectors (Colon Operator)
Link NOC:Structural Dynamics Lecture 14 - Creating Uniformly Spaced Vectors (LINSPACE)
Link NOC:Structural Dynamics Lecture 15 - Accessing Elements of a Vector
Link NOC:Structural Dynamics Lecture 16 - Calculations with Vectors
Link NOC:Structural Dynamics Lecture 17 - Creating Matrices
Link NOC:Structural Dynamics Lecture 18 - Matrix Creation Functions
Link NOC:Structural Dynamics Lecture 19 - Accessing Elements of a Matrix
Link NOC:Structural Dynamics Lecture 20 - Matrix Multiplication
Link NOC:Structural Dynamics Lecture 21 - Logical Operators
Link NOC:Structural Dynamics Lecture 22 - Writing a FOR Loop
Link NOC:Structural Dynamics Lecture 23 - If - Else Statements
Link NOC:Structural Dynamics Lecture 24 - While Loop
Link NOC:Structural Dynamics Lecture 25 - Line Plots
Link NOC:Structural Dynamics Lecture 26 - Annotating Graphs
Link NOC:Structural Dynamics Lecture 27 - Exploring Figures in MATLAB Online
Link NOC:Structural Dynamics Lecture 28 - Damped Free Vibration
Link NOC:Structural Dynamics Lecture 29 - Types of Damping
Link NOC:Structural Dynamics Lecture 30 - Logarithmic Decrement
Link NOC:Structural Dynamics Lecture 31 - Dynamic Equilibrium Equation Using Energy Method
Link NOC:Structural Dynamics Lecture 32 - Module 1: UnDamped Forced Vibration
Link NOC:Structural Dynamics Lecture 33 - Module 2: Damped Forced Vibration
Link NOC:Structural Dynamics Lecture 34 - Module 3: Relationship between Rd, Rv & Ra
Link NOC:Structural Dynamics Lecture 35 - Module 4: Resonant Frequency & Half Power Band Width
Link NOC:Structural Dynamics Lecture 36 - Module 5: Transmissibility
Link NOC:Structural Dynamics Lecture 37 - Module 1: Response to Arbitrary Force
Link NOC:Structural Dynamics Lecture 38 - Module 2: Special Cases in Arbitrary Force
Link NOC:Structural Dynamics Lecture 39 - Module 3: Fourier Transformation
Link NOC:Structural Dynamics Lecture 40 - Module 1: Numerical Methods
Link NOC:Structural Dynamics Lecture 41 - Module 2: Methods Based on Interpolation of Excitation
Link NOC:Structural Dynamics Lecture 42 - Module 3: Central Difference Method
Link NOC:Structural Dynamics Lecture 43 - Module 4: Numerical Methods based on Variation of Acceleration: Newmark’s Method
Link NOC:Structural Dynamics Lecture 44 - Central Difference Method (Tutorial)
Link NOC:Structural Dynamics Lecture 45 - Module 1: Response Spectrum
Link NOC:Structural Dynamics Lecture 46 - Module 2: Special Cases of Response Spectrum
Link NOC:Structural Dynamics Lecture 47 - Module 3: Development of Tripartite Plot
Link NOC:Structural Dynamics Lecture 48 - Module 1: Multi-Degree of Freedom System
Link NOC:Structural Dynamics Lecture 49 - Module 2: Multi-Degree of Freedom System: Solution of Equilibrium Equation
Link NOC:Structural Dynamics Lecture 50 - Module 3: Multi-Degree of Freedom System: Modal Orthogonality
Link NOC:Structural Dynamics Lecture 51 - Module 4: Approximate Methods For Finding Natural Frequency
Link NOC:Structural Dynamics Lecture 52 - Tutorial 01: Generation of Mass Matrix
Link NOC:Structural Dynamics Lecture 53 - Tutorial 2: Eigen vector and Modal Orthogonality
Link NOC:Structural Dynamics Lecture 54 - Module 1: Time History Analysis
Link NOC:Structural Dynamics Lecture 55 - Module 2: Response Spectrum Analysis
Link NOC:Structural Dynamics Lecture 56 - Module 1: Three Dimensional Dynamic Analysis
Link NOC:Structural Dynamics Lecture 57 - Module 2: Generation of Elastic Design Response Spectra
Link NOC:Structural Dynamics Lecture 58 - W09T01: Centre of Mass & Centre of Stiffness
Link NOC:Structural Dynamics Lecture 59 - Module 1: Vibration of Continuous Systems
Link NOC:Structural Dynamics Lecture 60 - Module 2: Example Problem on Continuous system
Link NOC:Structural Dynamics Lecture 61 - Module 3: Theory of Seismometer
Link NOC:Structural Dynamics Lecture 62 - Module 1: Dynamics of Non Structural Elements
Link NOC:Structural Dynamics Lecture 63 - Module 2: Non Structural Elements Example
Link NOC:Structural Dynamics Lecture 64 - W11T: Non Structural Elements
Link NOC:Structural Dynamics Lecture 65 - Module 1: Classical and Non-classical Damping
Link NOC:Structural Dynamics Lecture 66 - Module 2: Vibration Control
Link NOC:Structural Dynamics Lecture 67 - Module 3: Base Isolation
Link NOC:Structural Dynamics Lecture 68 - Module 4: Tuned Mass Damper
Link NOC:Mechanics of Materials Lecture 1 - Why this course?
Link NOC:Mechanics of Materials Lecture 2 - Concepts and equations in this course
Link NOC:Mechanics of Materials Lecture 3 - Objectives and prerequisite
Link NOC:Mechanics of Materials Lecture 4 - Linear Algebra
Link NOC:Mechanics of Materials Lecture 5 - Vector Algebra
Link NOC:Mechanics of Materials Lecture 6 - Representation of Vector
Link NOC:Mechanics of Materials Lecture 7 - Concept of Force
Link NOC:Mechanics of Materials Lecture 8 - Definition of a body
Link NOC:Mechanics of Materials Lecture 9 - Motion and Displacement field
Link NOC:Mechanics of Materials Lecture 10 - Traction
Link NOC:Mechanics of Materials Lecture 11 - Properties of traction
Link NOC:Mechanics of Materials Lecture 12 - Defnition of stress tensor and linear function
Link NOC:Mechanics of Materials Lecture 13 - Tensor Algebra
Link NOC:Mechanics of Materials Lecture 14 - Meaning of components of the stress tensor
Link NOC:Mechanics of Materials Lecture 15 - Transformation of stress components
Link NOC:Mechanics of Materials Lecture 16 - Mohr's Circle derivaion
Link NOC:Mechanics of Materials Lecture 17 - Example 1: Construction of Mohr's circle
Link NOC:Mechanics of Materials Lecture 18 - Example 2: Extremum normal and shear stress
Link NOC:Mechanics of Materials Lecture 19 - Example 3: Transformation of stress components
Link NOC:Mechanics of Materials Lecture 20 - Uniaxial stress
Link NOC:Mechanics of Materials Lecture 21 - Hydrostatic, pure shear and deviatoric stress
Link NOC:Mechanics of Materials Lecture 22 - Biaxial and Plane state of stress
Link NOC:Mechanics of Materials Lecture 23 - Extreme stress for 3D stresses
Link NOC:Mechanics of Materials Lecture 24 - Extremum shear stress
Link NOC:Mechanics of Materials Lecture 25 - Stresses in the Octahedral plane
Link NOC:Mechanics of Materials Lecture 26 - 2D Equilibrium equations
Link NOC:Mechanics of Materials Lecture 27 - 3D Equilibrium equations
Link NOC:Mechanics of Materials Lecture 28 - Stretch ratio and strain
Link NOC:Mechanics of Materials Lecture 29 - Curves and arc Length
Link NOC:Mechanics of Materials Lecture 30 - Gradient
Link NOC:Mechanics of Materials Lecture 31 - Deformation and displacement Gradient
Link NOC:Mechanics of Materials Lecture 32 - Right Cauchy Green Deformation tensor
Link NOC:Mechanics of Materials Lecture 33 - Homogeneous deformation
Link NOC:Mechanics of Materials Lecture 34 - Engineering strain
Link NOC:Mechanics of Materials Lecture 35 - Change in Angle
Link NOC:Mechanics of Materials Lecture 36 - Transformation of strain components/ Strain Rosette
Link NOC:Mechanics of Materials Lecture 37 - Compatibility condition
Link NOC:Mechanics of Materials Lecture 38 - Constitutive relation
Link NOC:Mechanics of Materials Lecture 39 - Young's Modulus and Poisson's Ratio
Link NOC:Mechanics of Materials Lecture 40 - Shear Modulus
Link NOC:Mechanics of Materials Lecture 41 - Bulk Modulus
Link NOC:Mechanics of Materials Lecture 42 - Restriction on material parameters
Link NOC:Mechanics of Materials Lecture 43 - Thermal strain
Link NOC:Mechanics of Materials Lecture 44 - Strain energy, load potential and total potential
Link NOC:Mechanics of Materials Lecture 45 - Stepped shaft subjected to axial force
Link NOC:Mechanics of Materials Lecture 46 - Inhomogeneous bar subjected to axial force
Link NOC:Mechanics of Materials Lecture 47 - Stepped shaft subjected to raise in temperature
Link NOC:Mechanics of Materials Lecture 48 - Traction in member subjected to bending
Link NOC:Mechanics of Materials Lecture 49 - Governing equilibrium equations
Link NOC:Mechanics of Materials Lecture 50 - Displacement field
Link NOC:Mechanics of Materials Lecture 51 - Bending equation
Link NOC:Mechanics of Materials Lecture 52 - Radius of curvature
Link NOC:Mechanics of Materials Lecture 53 - Shear force and bending moment diagram
Link NOC:Mechanics of Materials Lecture 54 - Variation of axial stress
Link NOC:Mechanics of Materials Lecture 55 - Deflected shape and rotation of cross section
Link NOC:Mechanics of Materials Lecture 56 - Expression to find shear stress
Link NOC:Mechanics of Materials Lecture 57 - Finding centroid of a cross section
Link NOC:Mechanics of Materials Lecture 58 - Parallel axis theorem and its application
Link NOC:Mechanics of Materials Lecture 59 - Vertical shear stress in I section
Link NOC:Mechanics of Materials Lecture 60 - Horizontal shear stress in I section
Link NOC:Mechanics of Materials Lecture 61 - Connection design
Link NOC:Mechanics of Materials Lecture 62 - Definition of shear center
Link NOC:Mechanics of Materials Lecture 63 - Shear center of Channel section
Link NOC:Mechanics of Materials Lecture 64 - Expression to find shear center
Link NOC:Mechanics of Materials Lecture 65 - Shear force and bending moment diagram
Link NOC:Mechanics of Materials Lecture 66 - Deflected shape and rotation of cross section
Link NOC:Mechanics of Materials Lecture 67 - Finding allowable load
Link NOC:Mechanics of Materials Lecture 68 - Modified bending equation
Link NOC:Mechanics of Materials Lecture 69 - Bending of a composite beam
Link NOC:Mechanics of Materials Lecture 70 - Connection design
Link NOC:Mechanics of Materials Lecture 71 - Moment of Intertia about arbitrarily oriented axis
Link NOC:Mechanics of Materials Lecture 72 - Example: Angle section
Link NOC:Mechanics of Materials Lecture 73 - Bending equation for bending about principal axis
Link NOC:Mechanics of Materials Lecture 74 - Bending equation about arbitrary axis
Link NOC:Mechanics of Materials Lecture 75 - Neutral axis
Link NOC:Mechanics of Materials Lecture 76 - Load not about principal axis
Link NOC:Mechanics of Materials Lecture 77 - Load about principal axis
Link NOC:Mechanics of Materials Lecture 78 - Displacement field
Link NOC:Mechanics of Materials Lecture 79 - Torsion equation
Link NOC:Mechanics of Materials Lecture 80 - Example problems
Link NOC:Mechanics of Materials Lecture 81 - Expression relating angle of twist with torsion and shear stress
Link NOC:Mechanics of Materials Lecture 82 - Example problems: Open sections
Link NOC:Mechanics of Materials Lecture 83 - Thin walled closed sections
Link NOC:Mechanics of Materials Lecture 84 - Example problems: Thin walled sections
Link NOC:Mechanics of Materials Lecture 85 - Cylindrical polar coordinate system
Link NOC:Mechanics of Materials Lecture 86 - Displacement field
Link NOC:Mechanics of Materials Lecture 87 - Governing differential equation and solution
Link NOC:Mechanics of Materials Lecture 88 - Example problems : Thick walled cylindrical vessel
Link NOC:Mechanics of Materials Lecture 89 - Thin walled pressure vessels
Link NOC:Mechanics of Materials Lecture 90 - General Principals
Link NOC:Mechanics of Materials Lecture 91 - Different failure modes
Link NOC:Mechanics of Materials Lecture 92 - Tresca Condition
Link NOC:Mechanics of Materials Lecture 93 - vonMises condition
Link NOC:Mechanics of Materials Lecture 94 - Maximum normal stress or rankine condition
Link NOC:Mechanics of Materials Lecture 95 - Mohr - Columb condition
Link NOC:Mechanics of Materials Lecture 96 - Drucker-Prager Condition
Link NOC:Mechanics of Materials Lecture 97 - General Concepts
Link NOC:Mechanics of Materials Lecture 98 - Euler critical load for simply supported column
Link NOC:Mechanics of Materials Lecture 99 - Euler critical load for column with any boundary condition
Link NOC:Mechanics of Materials Lecture 100 - Secant formula
Link NOC:Mechanics of Materials Lecture 101 - Pressure vessel and failure theory
Link NOC:Mechanics of Materials Lecture 102 - Determination of maximum load carrying capacity of a simple truss
Link NOC:Advanced Concrete Technology Lecture 0 - Introduction to course
Link NOC:Advanced Concrete Technology Lecture 1 - Cement Production - Part 1
Link NOC:Advanced Concrete Technology Lecture 2 - Cement Production - Part 2
Link NOC:Advanced Concrete Technology Lecture 3 - Cement Composition - Part 1
Link NOC:Advanced Concrete Technology Lecture 4 - Cement Composition - Part 2
Link NOC:Advanced Concrete Technology Lecture 5 - Cement Classification - Part 1
Link NOC:Advanced Concrete Technology Lecture 6 - Cement Classification - Part 2
Link NOC:Advanced Concrete Technology Lecture 7 - Cement Chemistry - Part 1
Link NOC:Advanced Concrete Technology Lecture 8 - Cement Chemistry - Part 2
Link NOC:Advanced Concrete Technology Lecture 9 - Cement Chemistry - Part 3
Link NOC:Advanced Concrete Technology Lecture 10 - Cement Chemistry - Part 4
Link NOC:Advanced Concrete Technology Lecture 11 - Cement Chemistry - Part 5
Link NOC:Advanced Concrete Technology Lecture 12 - Aggregates for concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 13 - Aggregates for concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 14 - Chemical admixtures - Part 1
Link NOC:Advanced Concrete Technology Lecture 15 - Chemical admixtures - Part 2
Link NOC:Advanced Concrete Technology Lecture 16 - Chemical admixtures - Part 3
Link NOC:Advanced Concrete Technology Lecture 17 - Chemical admixtures - Part 4
Link NOC:Advanced Concrete Technology Lecture 18 - Chemical admixtures - Part 5
Link NOC:Advanced Concrete Technology Lecture 19 - Mineral admixtures - Part 1
Link NOC:Advanced Concrete Technology Lecture 20 - Mineral admixtures - Part 2
Link NOC:Advanced Concrete Technology Lecture 21 - Mineral admixtures - Part 3
Link NOC:Advanced Concrete Technology Lecture 22 - Mineral admixtures - Part 4
Link NOC:Advanced Concrete Technology Lecture 23 - Mineral admixtures - Part 5
Link NOC:Advanced Concrete Technology Lecture 24 - Mineral admixtures - Part 6
Link NOC:Advanced Concrete Technology Lecture 25 - Mineral admixtures - Part 7
Link NOC:Advanced Concrete Technology Lecture 26 - Mixture proportioning
Link NOC:Advanced Concrete Technology Lecture 27 - Fresh concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 28 - Fresh concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 29 - Fresh properties - Part 3
Link NOC:Advanced Concrete Technology Lecture 30 - Introduction to Harden concrete properties
Link NOC:Advanced Concrete Technology Lecture 31 - Post peak response and Fibre reinforced concrete
Link NOC:Advanced Concrete Technology Lecture 32 - Shrinkage: Mechanism and Behaviours
Link NOC:Advanced Concrete Technology Lecture 33 - Creep: Mechanism and Behaviours
Link NOC:Advanced Concrete Technology Lecture 34 - Shrinkage: Plastic Shrinkage
Link NOC:Advanced Concrete Technology Lecture 35 - Shrinkage: Drying Shrinkage
Link NOC:Advanced Concrete Technology Lecture 36 - Introduction to Durability
Link NOC:Advanced Concrete Technology Lecture 37 - Performance based specifications for durable concrete
Link NOC:Advanced Concrete Technology Lecture 38 - Durability issues in concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 39 - Durability issues in concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 40 - Durability issues in concrete - Part 3
Link NOC:Advanced Concrete Technology Lecture 41 - Durability issues in concrete - Part 4
Link NOC:Advanced Concrete Technology Lecture 42 - Durability issues in concrete - Part 5
Link NOC:Advanced Concrete Technology Lecture 43 - Durability issues in concrete - Part 6
Link NOC:Glass in Buildings: Design and Application Lecture 1 - Introduction
Link NOC:Glass in Buildings: Design and Application Lecture 2 - Float Process for Manufacturing Glass - Part 1
Link NOC:Glass in Buildings: Design and Application Lecture 3 - Float Process for Manufacturing Glass - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 4 - Coatings on Glass - Need and Types - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 5 - Coatings on Glass - Need and Types - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 6 - Glass Design for Safety, Sustainability and Aesthetic - Part 1
Link NOC:Glass in Buildings: Design and Application Lecture 7 - Glass Design for Safety, Sustainability and Aesthetic - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 8 - Structural Control and Design for Energy Efficiency - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 9 - Structural Control and Design for Energy Efficiency - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 10 - Structural Control and Design for Energy Efficiency - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 11 - Structural Control and Design for Energy Efficiency - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 12 - Structural Control and Design for Energy Efficiency - Part V
Link NOC:Glass in Buildings: Design and Application Lecture 13 - Design Tools for Glass Selection - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 14 - Design Tools for Glass Selection - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 15 - Modeling the Building Envelope - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 16 - Modeling the Building Envelope - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 17 - Modeling the Building Envelope - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 18 - Innovations in Glass Future Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 19 - Innovations in Glass Future Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 20 - Standards Related to Glass
Link NOC:Glass in Buildings: Design and Application Lecture 21 - Introduction to Useful Daylighting in Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 22 - Fundamentals of Daylighting - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 23 - Fundamentals of Daylighting - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 24 - Daylighting Strategies - Techniques - Part I - Video 1
Link NOC:Glass in Buildings: Design and Application Lecture 25 - Daylighting Strategies - Techniques - Part I - Video 2
Link NOC:Glass in Buildings: Design and Application Lecture 26 - Daylighting Strategies - Techniques - Part II - Video 1
Link NOC:Glass in Buildings: Design and Application Lecture 27 - Daylighting Strategies - Techniques - Part II - Video 2
Link NOC:Glass in Buildings: Design and Application Lecture 28 - Daylighting Strategies - Techniques - Part II - Video 3
Link NOC:Glass in Buildings: Design and Application Lecture 29 - ECBC and Green Building Requirements
Link NOC:Glass in Buildings: Design and Application Lecture 30 - Introduction to Daylight Simulation
Link NOC:Glass in Buildings: Design and Application Lecture 31 - Daylighting Controls - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 32 - Daylighting Controls - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 33 - Acheving Acoustics Through Glass
Link NOC:Glass in Buildings: Design and Application Lecture 34 - Glass Processing Overview - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 35 - Glass Processing Overview - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 36 - Interior Glazing Program - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 37 - Interior Glazing Program - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 38 - Interior Glazing Applications-Shower Enclosure - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 39 - Interior Glazing Applications-Shower Enclosure - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 40 - Interior Glazing Applications-Shower Enclosure - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 41 - Interior Glazing Applications-Shower Enclosure - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 42 - Glass in Passive Fire Protection - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 43 - Glass in Passive Fire Protection - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 44 - Glass in Passive Fire Protection - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 45 - Glazing Choices for Project Segment - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 46 - Glazing Choices for Project Segment - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 47 - National Building Code 2016 - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 48 - National Building Code 2016 - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 49 - National Building Code 2016 - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 50 - National Building Code 2016 - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 51 - Facade Fundamentals - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 52 - Facade Fundamentals - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 53 - Facade Fundamentals - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 54 - Facade Fundamentals - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 55 - Glass Application on Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 56 - Glass Application on Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 57 - Glass Application on Facades - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 58 - Energy Efficiency Facade System
Link NOC:Glass in Buildings: Design and Application Lecture 59 - Structural Design of Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 60 - Structural Design of Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 61 - Silicone for Structural Glazing - Part - I
Link NOC:Glass in Buildings: Design and Application Lecture 62 - Silicone for Structural Glazing - Part - II
Link NOC:Glass in Buildings: Design and Application Lecture 63 - Silicone for Structural Glazing - Part - III
Link NOC:Glass in Buildings: Design and Application Lecture 64 - Facade Factory Operations - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 65 - Facade Factory Operations - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 66 - Performance Testing for Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 67 - Performance Testing for Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 68 - The Role of Windows in Building Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 69 - The Role of Windows in Building Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 70 - Standards Related to Glass II
Link NOC:Glass in Buildings: Design and Application Lecture 71 - FAQs about usage of Glass in Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 72 - Case Study of a Different Concept of Facade
Link NOC:Glass in Buildings: Design and Application Lecture 73 - Case Studies-Envelope Design and Its Impact - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 74 - Case Studies-Envelope Design and Its Impact - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 75 - A Case Study of Building Envelope in the context of Environmentally Sustainable Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 76 - A Case Study of Building Envelope in the context of Environmentally Sustainable Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 77 - Sustainable Building and Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 78 - Sustainable Building and Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 79 - Building Envelope Design for Sustainable Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 80 - Building Envelope Design
Link NOC:Glass in Buildings: Design and Application Lecture 81 - Case Study for Building Envelop Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 82 - Case Study for Building Envelop Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 83 - Case study-Commercial Buildings - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 84 - Case study-Commercial Buildings - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 85 - Case study-Commercial Buildings - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 86 - Case Study-The Untold Truth of the Unbuilt - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 87 - Case Study-The Untold Truth of the Unbuilt - Part II
Link NOC:Glass Processing Technology Lecture 1 - Introduction
Link NOC:Glass Processing Technology Lecture 2 - Glass as Building Material - Part I
Link NOC:Glass Processing Technology Lecture 3 - Glass as Building Material - Part II
Link NOC:Glass Processing Technology Lecture 4 - Float Glass Manufacturing - Part I
Link NOC:Glass Processing Technology Lecture 5 - Float Glass Manufacturing - Part II
Link NOC:Glass Processing Technology Lecture 6 - Glass Coating Technology - Part I
Link NOC:Glass Processing Technology Lecture 7 - Glass Coating Technology - Part II
Link NOC:Glass Processing Technology Lecture 8 - Safety in Industries - Part I
Link NOC:Glass Processing Technology Lecture 9 - Safety in Industries - Part II
Link NOC:Glass Processing Technology Lecture 10 - Safety in Glass Handling - Part I
Link NOC:Glass Processing Technology Lecture 11 - Safety in Glass Handling - Part II
Link NOC:Glass Processing Technology Lecture 12 - Process Flow- PPE
Link NOC:Glass Processing Technology Lecture 13 - Serviceability-Sales - Production Planning in Solutions Business - Part I
Link NOC:Glass Processing Technology Lecture 14 - Serviceability-Sales - Production Planning in Solutions Business - Part II
Link NOC:Glass Processing Technology Lecture 15 - Serviceability-Sales - Production Planning in Solutions Business - Part III
Link NOC:Glass Processing Technology Lecture 16 - Environment and Eco packaging
Link NOC:Glass Processing Technology Lecture 17 - Glass Warehouse Management - Part I
Link NOC:Glass Processing Technology Lecture 18 - Glass Warehouse Management - Part II
Link NOC:Glass Processing Technology Lecture 19 - Cutting and Snapping
Link NOC:Glass Processing Technology Lecture 20 - Pre-Processing-Drilling - Part I
Link NOC:Glass Processing Technology Lecture 21 - Pre-Processing-Drilling - Part II
Link NOC:Glass Processing Technology Lecture 22 - Grinding and Fabrication
Link NOC:Glass Processing Technology Lecture 23 - Pre-Processing - Washing
Link NOC:Glass Processing Technology Lecture 24 - Tempering - Part I
Link NOC:Glass Processing Technology Lecture 25 - Tempering - Part II
Link NOC:Glass Processing Technology Lecture 26 - Tempering - Part III
Link NOC:Glass Processing Technology Lecture 27 - Tempering - Part IV
Link NOC:Glass Processing Technology Lecture 28 - Tempering - Part V
Link NOC:Glass Processing Technology Lecture 29 - Tempering - Part VI
Link NOC:Glass Processing Technology Lecture 30 - Tempering - Part VII
Link NOC:Glass Processing Technology Lecture 31 - Lamination - Part I
Link NOC:Glass Processing Technology Lecture 32 - Lamination - Part II
Link NOC:Glass Processing Technology Lecture 33 - Lamination - Part III
Link NOC:Glass Processing Technology Lecture 34 - Insulating Glass Unit - Part I
Link NOC:Glass Processing Technology Lecture 35 - Insulating Glass Unit - Part II
Link NOC:Glass Processing Technology Lecture 36 - Insulating Glass Unit - Part III
Link NOC:Glass Processing Technology Lecture 37 - Insulating Glass Unit - Part IV
Link NOC:Glass Processing Technology Lecture 38 - Insulating Glass Unit - Part V
Link NOC:Glass Processing Technology Lecture 39 - Insulating Glass Unit - Part VI
Link NOC:Glass Processing Technology Lecture 40 - Insulating Glass Unit - Part VII
Link NOC:Glass Processing Technology Lecture 41 - Insulating Glass Unit - Part VIII
Link NOC:Glass Processing Technology Lecture 42 - Insulating Glass Unit - Part IX
Link NOC:Glass Processing Technology Lecture 43 - Silicone Sealant for Insulated Glass - Part I
Link NOC:Glass Processing Technology Lecture 44 - Silicone Sealant for Insulated Glass - Part II
Link NOC:Glass Processing Technology Lecture 45 - Insulating Glass Unit - Part X
Link NOC:Glass Processing Technology Lecture 46 - Insulating Glass Unit - Part XI
Link NOC:Glass Processing Technology Lecture 47 - Insulating Glass Unit - Part XII
Link NOC:Glass Processing Technology Lecture 48 - Processing Standards and Checks
Link NOC:Glass Processing Technology Lecture 49 - Quality Testing - Part I
Link NOC:Glass Processing Technology Lecture 50 - Quality Testing - Part II
Link NOC:Glass Processing Technology Lecture 51 - Quality Testing - Part III
Link NOC:Glass Processing Technology Lecture 52 - Quality Testing - Part IV - Video 1
Link NOC:Glass Processing Technology Lecture 53 - Quality Testing - Part IV - Video 2
Link NOC:Glass Processing Technology Lecture 54 - Quality Testing - Part V
Link NOC:Glass Processing Technology Lecture 55 - Quality Testing - Part VI
Link NOC:Glass Processing Technology Lecture 56 - Quality Testing - Part VII
Link NOC:Glass Processing Technology Lecture 57 - Heat soaking - Part I
Link NOC:Glass Processing Technology Lecture 58 - Heat soaking - Part II
Link NOC:Glass Processing Technology Lecture 59 - Ceramic Printing on Glass - Part I
Link NOC:Glass Processing Technology Lecture 60 - Ceramic Printing on Glass - Part II
Link NOC:Glass Processing Technology Lecture 61 - Ceramic Printing on Glass - Part III
Link NOC:Glass Processing Technology Lecture 62 - Ceramic Printing on Glass - Part IV
Link NOC:Glass Processing Technology Lecture 63 - Glass Breakage Reasons
Link NOC:Glass Processing Technology Lecture 64 - Internal Process Loss - Part I
Link NOC:Glass Processing Technology Lecture 65 - Internal Process Loss - Part II
Link NOC:Glass Processing Technology Lecture 66 - Internal Process Loss - Part III
Link NOC:Glass Processing Technology Lecture 67 - Root Cause Analysis - Part I
Link NOC:Glass Processing Technology Lecture 68 - Root Cause Analysis - Part II
Link NOC:Glass Processing Technology Lecture 69 - Post Manufacturing Expenses
Link NOC:Glass Processing Technology Lecture 70 - 5S in Glass Processing
Link NOC:Glass Processing Technology Lecture 71 - Introduction to Quality Management System - Part I
Link NOC:Glass Processing Technology Lecture 72 - Introduction to Quality Management System - Part II
Link NOC:Glass Processing Technology Lecture 73 - Glass Processing - Applications, Innovations and Futuristic Trends - Part I
Link NOC:Glass Processing Technology Lecture 74 - Glass Processing - Applications, Innovations and Futuristic Trends - Part II
Link NOC:Glass Processing Technology Lecture 75 - Sustainability on Glass Processing
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 1 - Calcium sulfoaluminate cement-based binder: Properties and application
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 2 - Micro-structural characterisation of cementitious materials - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 3 - Micro-structural characterisation of cementitious materials - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 4 - Micro-structural characterisation of cementitious materials - Part 3
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 5 - Interview with Prof Karen Scrivener
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 6 - Performance of Fiber reinforced materials
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 7 - Ultra-High performance concrete (UHPC): Material design and properties - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 8 - Ultra-High performance concrete (UHPC): Material design and properties - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 9 - Closed-Loop testing - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 10 - Closed-Loop testing - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 11 - Uni-axial tensile test of textile reinforced concrete (TRC) panel
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 12 - Fiber reinforced concrete: Notched beam flexural test
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 13 - Strain softening response of concrete Under uniaxial compression
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 14 - Tension test of 7-wire steel strand
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 15 - Bond Test of Strand-concrete System
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 16 - Interview with Prof. S. P. Shah
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 17 - Introduction to concrete durability
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 18 - Sulphate attack of concrete
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 19 - Development and performance approach for durability and service life production for structures
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 20 - Colorimetric test to assess carbonation resistance in concrete
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 21 - Experiments on durability index: Rapid chloride permeability test, Oxygen permeability test, and Water Sorptivity test
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 22 - Prof. Mark Alexander
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 23 - Chloride induced corrosion and service life of reinforced concrete structures - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 24 - Chloride induced corrosion and service life of reinforced concrete structures - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 25 - Corrosion control and cathodic protection of steel reinforcement: Past, present, and future
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 26 - LCA of cement and concrete - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 27 - LCA of cement and concrete - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 28 - 8. Chloride threshold testing using linear polarization resistance (LPR) and electrochemical impedance spectroscopy (EIS)
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 29 - Interview with Prof George Sergi
Link NOC:Infrastructure Planning and Managements Lecture 1 - Introduction to infrastructure and the Transportation sector - Part 1A
Link NOC:Infrastructure Planning and Managements Lecture 2 - Introduction to infrastructure and the Transportation sector - Part 1B
Link NOC:Infrastructure Planning and Managements Lecture 3 - Introduction to infrastructure and the Transportation sector - Part 1C
Link NOC:Infrastructure Planning and Managements Lecture 4 - Introduction to infrastructure and the Transportation sector - Part 1D
Link NOC:Infrastructure Planning and Managements Lecture 5 - Introduction to Power and Telecom sectors - Part 2A
Link NOC:Infrastructure Planning and Managements Lecture 6 - Introduction to Power and Telecom sectors - Part 2B
Link NOC:Infrastructure Planning and Managements Lecture 7 - Urban and Rural Infrastructure - Part 1A
Link NOC:Infrastructure Planning and Managements Lecture 8 - Urban and Rural Infrastructure - Part 1B
Link NOC:Infrastructure Planning and Managements Lecture 9 - Urban and Rural Infrastructure - Part 1C
Link NOC:Infrastructure Planning and Managements Lecture 10 - Phases and Players in Infrastructure Planning and Managements - Part 2A
Link NOC:Infrastructure Planning and Managements Lecture 11 - Phases and Players in Infrastructure Planning and Managements - Part 2B
Link NOC:Infrastructure Planning and Managements Lecture 12 - Infrastructure Economics and Finance
Link NOC:Infrastructure Planning and Managements Lecture 13 - Public-Private Partnership for Infrastructure
Link NOC:Infrastructure Planning and Managements Lecture 14 - Public-Private Partnership for Infrastructure - Case Studies - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 15 - Public-Private Partnership for Infrastructure - Case Studies - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 16 - Public-Private Partnership for Infrastructure - Case Studies - Part 3
Link NOC:Infrastructure Planning and Managements Lecture 17 - Risks and Challenges in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 18 - Risks and Challenges in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 19 - Risks and Challenges in Infrastructure - Part 3
Link NOC:Infrastructure Planning and Managements Lecture 20 - Economic Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 21 - Economic Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 22 - Political Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 23 - Political Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 24 - Social Environmental Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 25 - Social Environmental Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 26 - Actor Mapping and Social Network Analysis - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 27 - Actor Mapping and Social Network Analysis - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 28 - Fair Process and Negotiations - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 29 - Fair Process and Negotiations - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 30 - Design Thinking - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 31 - Design Thinking - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 32 - Sustainable Development and Socio - Economic Analysis - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 33 - Sustainable Development and Socio - Economic Analysis - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 34 - Public Sector Governance - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 35 - Public Sector Governance - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 36 - Flexibilities and Options on Projects - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 37 - Flexibilities and Options on Projects - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 38 - Module Flexibilities in Projects - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 39 - Module Flexibilities in Projects - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 40 - Case Study on PPP Project - Delhi Airport
Link NOC:Infrastructure Planning and Managements Lecture 41 - Case Study on PPP Project - Tirupur Water Supply
Link NOC:Infrastructure Planning and Managements Lecture 42 - Polycentric Governance and Incomplete Design - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 43 - Polycentric Governance and Incomplete Design - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 44 - Successful Project Delivery Strategies - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 45 - Successful Project Delivery Strategies - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 46 - Guest Lecture by K Venkatesh
Link NOC:Infrastructure Planning and Managements Lecture 47 - Guest Lecture by Kavitha Selvaraj
Link NOC:Design of Masonry Structures Lecture 1 - Introductory - Part I
Link NOC:Design of Masonry Structures Lecture 2 - Introductory - Part II
Link NOC:Design of Masonry Structures Lecture 3 - Introductory - Part III
Link NOC:Design of Masonry Structures Lecture 4 - Introductory - Part IV
Link NOC:Design of Masonry Structures Lecture 5 - Masonry Materials and Properties - Part I
Link NOC:Design of Masonry Structures Lecture 6 - Masonry Materials and Properties - Part II
Link NOC:Design of Masonry Structures Lecture 7 - Masonry Materials and Properties - Part III
Link NOC:Design of Masonry Structures Lecture 8 - Masonry Materials and Properties - Part IV
Link NOC:Design of Masonry Structures Lecture 9 - Masonry Materials and Properties - Part V
Link NOC:Design of Masonry Structures Lecture 10 - Masonry Materials and Properties - Part VI
Link NOC:Design of Masonry Structures Lecture 11 - Strength and Behaviour of Masonry - Part I
Link NOC:Design of Masonry Structures Lecture 12 - Strength and Behaviour of Masonry - Part II
Link NOC:Design of Masonry Structures Lecture 13 - Strength and Behaviour of Masonry - Part III
Link NOC:Design of Masonry Structures Lecture 14 - Strength and Behaviour of Masonry - Part IV
Link NOC:Design of Masonry Structures Lecture 15 - Strength and Behaviour of Masonry - Part V
Link NOC:Design of Masonry Structures Lecture 16 - Strength and Behaviour of Masonry - Part VI
Link NOC:Design of Masonry Structures Lecture 17 - Strength and Behaviour of Masonry - Part VII
Link NOC:Design of Masonry Structures Lecture 18 - Strength and Behaviour of Masonry - Part VIII
Link NOC:Design of Masonry Structures Lecture 19 - Strength and Behaviour of Masonry - Part IX
Link NOC:Design of Masonry Structures Lecture 20 - Strength and Behaviour of Masonry - Part X
Link NOC:Design of Masonry Structures Lecture 21 - Strength and Behaviour of Masonry - Part XI
Link NOC:Design of Masonry Structures Lecture 22 - Design of Masonry Components and Systems - Part I
Link NOC:Design of Masonry Structures Lecture 23 - Design of Masonry Components and Systems - Part II
Link NOC:Design of Masonry Structures Lecture 24 - Design of Masonry Components and Systems - Part III
Link NOC:Design of Masonry Structures Lecture 25 - Design of Masonry Components and Systems - Part IV
Link NOC:Design of Masonry Structures Lecture 26 - Design of Masonry Components and Systems - Part V
Link NOC:Design of Masonry Structures Lecture 27 - Design of Masonry Components and Systems - Part VI
Link NOC:Design of Masonry Structures Lecture 28 - Design of Masonry Components and Systems - Part VII
Link NOC:Design of Masonry Structures Lecture 29 - Design of Masonry Components and Systems - Part VIII
Link NOC:Design of Masonry Structures Lecture 30 - Design of Masonry Components and Systems - Part IX
Link NOC:Design of Masonry Structures Lecture 31 - Design of Masonry Components and Systems - Part X
Link NOC:Design of Masonry Structures Lecture 32 - Design of Masonry Components and Systems - Part XI
Link NOC:Design of Masonry Structures Lecture 33 - Design of Masonry Components and Systems - Example I
Link NOC:Design of Masonry Structures Lecture 34 - Design of Masonry Components and Systems - Example II
Link NOC:Design of Masonry Structures Lecture 35 - Design of Masonry Components and Systems - Example III
Link NOC:Design of Masonry Structures Lecture 36 - Special Topics - Confined Masonry
Link NOC:Design of Masonry Structures Lecture 37 - Special Topics - Masonry Infill in RC Frames
Link NOC:Design of Masonry Structures Lecture 38 - Special Topics - Assessment of Existing Masonry Structures - Part I
Link NOC:Design of Masonry Structures Lecture 39 - Special Topics - Assessment of Existing Masonry Structures - Part II
Link NOC:Design of Masonry Structures Lecture 40 - Special Topics - Assessment of Existing Masonry Structures - Part III
Link NOC:Characterization of Construction Materials Lecture 1 - Characterization of Construction Materials: An Introduction - Part 1
Link NOC:Characterization of Construction Materials Lecture 2 - Characterization of Construction Materials: An Introduction - Part 2
Link NOC:Characterization of Construction Materials Lecture 3 - Structure of Contruction Materials: An Overview - Part 1
Link NOC:Characterization of Construction Materials Lecture 4 - Structure of Contruction Materials: An Overview - Part 2
Link NOC:Characterization of Construction Materials Lecture 5 - Structure of Contruction Materials: An Overview - Part 3
Link NOC:Characterization of Construction Materials Lecture 6 - Structure of Contruction Materials: An Overview - Part 4
Link NOC:Characterization of Construction Materials Lecture 7 - Calorimetry: Introduction and types of Calorimeters - Part 1
Link NOC:Characterization of Construction Materials Lecture 8 - Calorimetry: Introduction and types of Calorimeters - Part 2
Link NOC:Characterization of Construction Materials Lecture 9 - Calorimetry: Sample preparation, Practical note and Heat of hydration - Part 1
Link NOC:Characterization of Construction Materials Lecture 10 - Calorimetry: Sample preparation, Practical note and Heat of hydration - Part 2
Link NOC:Characterization of Construction Materials Lecture 11 - Calorimetry: Applications of calorimetry - Part 1
Link NOC:Characterization of Construction Materials Lecture 12 - X Ray diffraction: Introduction to X Rays and crystallography - Part 1
Link NOC:Characterization of Construction Materials Lecture 13 - X Ray diffraction: Introduction to X Rays and crystallography - Part 2
Link NOC:Characterization of Construction Materials Lecture 14 - X Ray diffraction: Crystal systems and History of XRD - Part 1
Link NOC:Characterization of Construction Materials Lecture 15 - X Ray diffraction: Crystal systems and History of XRD - Part 2
Link NOC:Characterization of Construction Materials Lecture 16 - X Ray diffraction: Diffractogram
Link NOC:Characterization of Construction Materials Lecture 17 - X Ray diffraction: Diffractogram - Calculations - Part 1
Link NOC:Characterization of Construction Materials Lecture 18 - X Ray diffraction: Diffractogram - Calculations - Part 2
Link NOC:Characterization of Construction Materials Lecture 19 - X Ray Diffraction: Qualitative Phase Analysis - Part 1
Link NOC:Characterization of Construction Materials Lecture 20 - X Ray Diffraction: Qualitative Phase Analysis - Part 2
Link NOC:Characterization of Construction Materials Lecture 21 - X Ray Diffraction: Sample Preparation and Application in study of cements - Part 1
Link NOC:Characterization of Construction Materials Lecture 22 - X Ray Diffraction: Sample Preparation and Application in study of cements - Part 2
Link NOC:Characterization of Construction Materials Lecture 23 - Thermal Analysis - Part 1
Link NOC:Characterization of Construction Materials Lecture 24 - Thermal Analysis - Part 2
Link NOC:Characterization of Construction Materials Lecture 25 - Application of thermal analysis to study construction materials - Part 1
Link NOC:Characterization of Construction Materials Lecture 26 - Application of thermal analysis to study construction materials - Part 2
Link NOC:Characterization of Construction Materials Lecture 27 - Surface Area Measurement: Sampling and particle size distribution - Part 1
Link NOC:Characterization of Construction Materials Lecture 28 - Surface Area Measurement: Sampling and particle size distribution - Part 2
Link NOC:Characterization of Construction Materials Lecture 29 - Surface Area Measurement: Different techniques - Part 1
Link NOC:Characterization of Construction Materials Lecture 30 - Surface Area Measurement: Different techniques - Part 2
Link NOC:Characterization of Construction Materials Lecture 31 - Surface Area Measurement: calculation and applications
Link NOC:Characterization of Construction Materials Lecture 32 - Optical and Scanning Microscopy- Introduction and specimen preperation - Part 1
Link NOC:Characterization of Construction Materials Lecture 33 - Optical and Scanning Microscopy- Introduction and specimen preperation - Part 2
Link NOC:Characterization of Construction Materials Lecture 34 - Optical and Scanning Microscopy- Features and functions - Part 1
Link NOC:Characterization of Construction Materials Lecture 35 - Optical and Scanning Microscopy- Features and functions - Part 2
Link NOC:Characterization of Construction Materials Lecture 36 - Types of optical microsopy - Part 1
Link NOC:Characterization of Construction Materials Lecture 37 - Types of optical microsopy - Part 2
Link NOC:Characterization of Construction Materials Lecture 38 - Scanning electron microscope Part 1- Parts and Functioning - Part 1
Link NOC:Characterization of Construction Materials Lecture 39 - Scanning electron microscope Part 1- Parts and Functioning - Part 2
Link NOC:Characterization of Construction Materials Lecture 40 - Scanning electron microscope Part 2- Working Principles - Part 1
Link NOC:Characterization of Construction Materials Lecture 41 - Scanning electron microscope Part 2- Working Principles - Part 2
Link NOC:Characterization of Construction Materials Lecture 42 - Scanning electron microscope Part 3 - Analysis of cementitious systems 1 - Part 1
Link NOC:Characterization of Construction Materials Lecture 43 - Scanning electron microscope Part 3 - Analysis of cementitious systems 1 - Part 2
Link NOC:Characterization of Construction Materials Lecture 44 - Scanning electron microscope Part 4 - Analysis of cementitious system 2 - Part 1
Link NOC:Characterization of Construction Materials Lecture 45 - Scanning electron microscope Part 4 - Analysis of cementitious system 2 - Part 2
Link NOC:Characterization of Construction Materials Lecture 46 - Application of characterization techniques to assess composite binder with limestone-calcined clay: what, why and how? - Part 1
Link NOC:Characterization of Construction Materials Lecture 47 - Application of characterization techniques to assess composite binder with limestone-calcined clay: what, why and how? - Part 2
Link NOC:Characterization of Construction Materials Lecture 48 - Image analysis - Introduction and image mapping - Part 1
Link NOC:Characterization of Construction Materials Lecture 49 - Image analysis - Introduction and image mapping - Part 2
Link NOC:Characterization of Construction Materials Lecture 50 - Image analysis - Basic operations - Part 1
Link NOC:Characterization of Construction Materials Lecture 51 - Image analysis - Basic operations - Part 2
Link NOC:Characterization of Construction Materials Lecture 52 - Spectroscopy Techniques - Part 1 AAS, AES - Part 1
Link NOC:Characterization of Construction Materials Lecture 53 - Spectroscopy Techniques - Part 1 AAS, AES - Part 2
Link NOC:Characterization of Construction Materials Lecture 54 - Spectroscopy Techniques - Part 2 UV and IR spectroscopy - Part 1
Link NOC:Characterization of Construction Materials Lecture 55 - Spectroscopy Techniques - Part 2 UV and IR spectroscopy - Part 2
Link NOC:Characterization of Construction Materials Lecture 56 - Spectroscopy Techniques - Part 3 FTIR and NMR spectroscopy - Part 1
Link NOC:Characterization of Construction Materials Lecture 57 - Spectroscopy Techniques - Part 3 FTIR and NMR spectroscopy - Part 2
Link NOC:Characterization of Construction Materials Lecture 58 - Spectrocopy techniques - Part 4 Principle of NMR spectroscopy
Link NOC:Characterization of Construction Materials Lecture 59 - Porosity and pore structure - Intoduction, significance of pore distribution
Link NOC:Characterization of Construction Materials Lecture 60 - Porosity and pore structure - Woking of mercury intrusion porosimeter - Part 1
Link NOC:Characterization of Construction Materials Lecture 61 - Porosity and pore structure - Woking of mercury intrusion porosimeter - Part 2
Link NOC:Characterization of Construction Materials Lecture 62 - Electrical Impedance analysis - Principle and different methods - Part 1
Link NOC:Characterization of Construction Materials Lecture 63 - Electrical Impedance analysis - Principle and different methods - Part 2
Link NOC:Characterization of Construction Materials Lecture 64 - Electrical Impedance analysis - Deliverables and Interpretation - Part 1
Link NOC:Characterization of Construction Materials Lecture 65 - Electrical Impedance analysis - Deliverables and Interpretation - Part 2
Link NOC:Characterization of Construction Materials Lecture 66 - Electrochemical testing (Corrosion) using Electrochemical Impedance Spectroscopy (EIS) - Part 1
Link NOC:Characterization of Construction Materials Lecture 67 - Electrochemical testing (Corrosion) using Electrochemical Impedance Spectroscopy (EIS) - Part 2
Link NOC:Introduction to Civil Engineering Profession Lecture 1 - What is Civil Engineering - Part 1
Link NOC:Introduction to Civil Engineering Profession Lecture 2 - What is Civil Engineering - Part 2
Link NOC:Introduction to Civil Engineering Profession Lecture 3 - Structural Conservation of Built Heritage
Link NOC:Introduction to Civil Engineering Profession Lecture 4 - Introduction to Environmental Engineering
Link NOC:Introduction to Civil Engineering Profession Lecture 5 - Interesting Environmental Projects
Link NOC:Introduction to Civil Engineering Profession Lecture 6 - Hydraulic and Water Resources Engineering
Link NOC:Introduction to Civil Engineering Profession Lecture 7 - Geotechnical Engineering
Link NOC:Introduction to Civil Engineering Profession Lecture 8 - Construction Materials and Methods
Link NOC:Introduction to Civil Engineering Profession Lecture 9 - Infrastructure Management
Link NOC:Introduction to Civil Engineering Profession Lecture 10 - Structural Engineering - 1
Link NOC:Introduction to Civil Engineering Profession Lecture 11 - Structural Engineering - 2
Link NOC:Introduction to Civil Engineering Profession Lecture 12 - Structural Engineering - Analysis and Design
Link NOC:Introduction to Civil Engineering Profession Lecture 13 - Structural Modeling
Link NOC:Introduction to Civil Engineering Profession Lecture 14 - Scope for Highway Engineers in Civil Engineering Profession - 1
Link NOC:Introduction to Civil Engineering Profession Lecture 15 - Scope for Highway Engineers in Civil Engineering Profession - 2
Link NOC:Introduction to Civil Engineering Profession Lecture 16 - Introduction to Civil Engineering Profession
Link NOC:Introduction to Civil Engineering Profession Lecture 17 - Hydrology and Water Security
Link NOC:Introduction to Civil Engineering Profession Lecture 18 - An Overview of Computational Science and Engineering
Link NOC:Introduction to Civil Engineering Profession Lecture 19 - Sustainability
Link NOC:Introduction to Civil Engineering Profession Lecture 20 - The Big Picture
Link NOC:Maintenance and Repair of Concrete Structures Lecture 1 - Prologue
Link NOC:Maintenance and Repair of Concrete Structures Lecture 2 - Corrosion of embedded metal; Significance and fundamentals of corrosion
Link NOC:Maintenance and Repair of Concrete Structures Lecture 3 - Corrosion of embedded metal; Carbonation-induced and chloride-induced corrosion
Link NOC:Maintenance and Repair of Concrete Structures Lecture 4 - Corrosion of embedded metal; Types of reinforcement - Bare steels
Link NOC:Maintenance and Repair of Concrete Structures Lecture 5 - TM - Ring Test For Assessing The Quality of TMT/QST Steel Rebars
Link NOC:Maintenance and Repair of Concrete Structures Lecture 6 - Corrosion of embedded metal; Types of reinforcement - Metallic and non metallic coated rebars
Link NOC:Maintenance and Repair of Concrete Structures Lecture 7 - Corrosion in prestressed concrete
Link NOC:Maintenance and Repair of Concrete Structures Lecture 8 - Deterioration of cementitious systems - Introduction, sulphate attack, biofouling and acid attack
Link NOC:Maintenance and Repair of Concrete Structures Lecture 9 - Deterioration of cementitious systems - frost attack, freeze-thaw and alkali-silica reaction
Link NOC:Maintenance and Repair of Concrete Structures Lecture 10 - Deterioration of cementitious systems - Shrinkage and Creep
Link NOC:Maintenance and Repair of Concrete Structures Lecture 11 - Deterioration of cementitious systems - Fire attack, abrasion and erosion
Link NOC:Maintenance and Repair of Concrete Structures Lecture 12 - Condition assessment of concrete structures: Exposure conditions, visual inspection, on-site Concrete testing
Link NOC:Maintenance and Repair of Concrete Structures Lecture 13 - Condition assessment of concrete structures: Testing of concerete in laboratory
Link NOC:Maintenance and Repair of Concrete Structures Lecture 14 - Condition assessmennt of concrete structures; mechanical and corrosion testing of rebars
Link NOC:Maintenance and Repair of Concrete Structures Lecture 15 - Strategies and materials for surface repair
Link NOC:Maintenance and Repair of Concrete Structures Lecture 16 - Strategies and materials for surface repair
Link NOC:Maintenance and Repair of Concrete Structures Lecture 17 - Strategies and materials for surface repair
Link NOC:Maintenance and Repair of Concrete Structures Lecture 18 - Surface preparation and protective treatment
Link NOC:Maintenance and Repair of Concrete Structures Lecture 19 - Surface preparation and Protective treatments
Link NOC:Maintenance and Repair of Concrete Structures Lecture 20 - Surface preparation and Protective treatments
Link NOC:Maintenance and Repair of Concrete Structures Lecture 21 - Surface preparation and Protective treatments
Link NOC:Maintenance and Repair of Concrete Structures Lecture 22 - Surface preparation and Protective treatments
Link NOC:Maintenance and Repair of Concrete Structures Lecture 23 - Coatings on concrete infrastructures
Link NOC:Maintenance and Repair of Concrete Structures Lecture 24 - Waterproofing of concrete structures - 1
Link NOC:Maintenance and Repair of Concrete Structures Lecture 25 - Waterproofing of concrete structures - 2
Link NOC:Maintenance and Repair of Concrete Structures Lecture 26 - Structural Strengthening and Stabilization - Load effects and Introduction to S&S
Link NOC:Maintenance and Repair of Concrete Structures Lecture 27 - Structural Strengthening and Stabilization - Beams and Slabs
Link NOC:Maintenance and Repair of Concrete Structures Lecture 28 - Structural Strengthening and Stabilization - Columns and Walls
Link NOC:Maintenance and Repair of Concrete Structures Lecture 29 - Structural strengthening - 4 (Joints and connections)
Link NOC:Maintenance and Repair of Concrete Structures Lecture 30 - Injection Grouts for concrete repair
Link NOC:Maintenance and Repair of Concrete Structures Lecture 31 - Structural repair of prestressed concrete systems
Link NOC:Maintenance and Repair of Concrete Structures Lecture 32 - Case studies on structural repair (Right methodologies and systematic approach / case studies)
Link NOC:Maintenance and Repair of Concrete Structures Lecture 33 - Cathodic Protection in Concrete Structures - Laboratory and field studies
Link NOC:Maintenance and Repair of Concrete Structures Lecture 34 - Service life estimation - 1
Link NOC:Maintenance and Repair of Concrete Structures Lecture 35 - Service life estimation - 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 1 - Mechanical Characterization of Bituminous Materials-Introduction - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 2 - Mechanical Characterization of Bituminous Materials-Introduction - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 3 - Linear Viscoelastic Response - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 4 - Linear Viscoelastic Response - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 5 - Linear Viscoelastic Response - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 6 - Linear Viscoelastic Response - Part 4
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 7 - Linear Viscoelastic Response - Part 5
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 8 - Small Amplitude Oscillatory Shear - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 9 - Small Amplitude Oscillatory Shear - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 10 - Small Amplitude Oscillatory Shear - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 11 - Small Amplitude Oscillatory Shear - Part 4
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 12 - Time temperature superposition principle - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 13 - Time temperature superposition principle - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 14 - Master curve models
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 15 - Asphalt Usage and Processing - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 16 - Asphalt Usage and Processing - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 17 - Chemical composition of bitumen - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 18 - Chemical composition of bitumen - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 19 - Chemical composition of bitumen - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 20 - Chemical composition of bitumen - Part 4
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 21 - Chemical composition of bitumen - Part 5
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 22 - Aging of Bituminous Binders and Mixtures - Part I
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 23 - Aging of Bituminous Binders and Mixtures - Part II
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 24 - Aging of Bituminous Binders and Mixtures - Part III
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 25 - Dynamic Shear Rheometer - Part I
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 26 - Dynamic Shear Rheometer - Part II
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 27 - Viscosity Grading - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 28 - Viscosity Grading - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 29 - Performance Grading - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 30 - Performance Grading - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 31 - PG-Theoretical Basis
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 32 - Low-temperature PG
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 33 - Modifiers for Bitumen - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 34 - Modifiers for Bitumen - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 35 - Modifiers for Bitumen - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 36 - Modifiers for Bitumen - Part 4
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 37 - Mixing and Compaction Temperature - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 38 - Mixing and Compaction Temperature - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 39 - Mixing and Compaction Temperature - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 40 - Dynamic Modulus of Bituminous Mixtures - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 41 - Dynamic Modulus of Bituminous Mixtures - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 42 - Resilient Modulus of Bituminous Mixtures - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 43 - Resilient Modulus of Bituminous Mixtures - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 44 - Rutting Characterisation - Different approaches
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 45 - Dry Rut Wheel Testing of Bituminous Mixtures
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 46 - Laboratory investigation for rutting of bituminous mixtures - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 47 - Laboratory investigation for rutting of bituminous mixtures - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 48 - Fatigue of Bituminous mixtures - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 49 - Fatigue of Bituminous mixtures - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 50 - Fatigue of Bituminous mixtures - Part 3
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 51 - Fatigue of Bituminous mixtures - Part 4
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 52 - Fatigue of Bituminous mixtures - Part 5
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 53 - Introduction to curve fitting using Matlab - Part 1
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 54 - Introduction to curve fitting using Matlab - Part 2
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 55 - MSCR Analysis using Matlab
Link NOC:Mechanical Characterization of Bituminous Materials Lecture 56 - Summary
Link NOC:Basic Construction Materials Lecture 1 - Introduction to Construction Materials - Part 1
Link NOC:Basic Construction Materials Lecture 2 - Introduction to Construction Materials - Part 2
Link NOC:Basic Construction Materials Lecture 3 - Introduction to Construction Materials - Part 3
Link NOC:Basic Construction Materials Lecture 4 - Materials Engineering Concepts - Part 1
Link NOC:Basic Construction Materials Lecture 5 - Materials Engineering Concepts - Part 2
Link NOC:Basic Construction Materials Lecture 6 - Materials Engineering Concepts - Part 3
Link NOC:Basic Construction Materials Lecture 7 - Materials Engineering Concepts - Part 4
Link NOC:Basic Construction Materials Lecture 8 - Materials Engineering Concepts - Part 5
Link NOC:Basic Construction Materials Lecture 9 - Materials Engineering Concepts - Part 6
Link NOC:Basic Construction Materials Lecture 10 - Materials Engineering Concepts - Part 7
Link NOC:Basic Construction Materials Lecture 11 - Nature of Materials - Part 1
Link NOC:Basic Construction Materials Lecture 12 - Nature of Materials - Part 2
Link NOC:Basic Construction Materials Lecture 13 - Nature of Materials - Part 3
Link NOC:Basic Construction Materials Lecture 14 - Nature of Materials - Part 5
Link NOC:Basic Construction Materials Lecture 15 - Nature of Materials - Part 6
Link NOC:Basic Construction Materials Lecture 16 - Nature of Materials - Part 6
Link NOC:Basic Construction Materials Lecture 17 - Nature of Materials - Part 7
Link NOC:Basic Construction Materials Lecture 18 - Stone, Brick and Mortar 1 - Part 1
Link NOC:Basic Construction Materials Lecture 19 - Stone, Brick and Mortar 1 - Part 2
Link NOC:Basic Construction Materials Lecture 20 - Stone, Brick and Mortar 1 - Part 3
Link NOC:Basic Construction Materials Lecture 21 - Stone, Brick and Mortar 1 - Part 4
Link NOC:Basic Construction Materials Lecture 22 - Stone, Brick and Mortar 2 - Part 1
Link NOC:Basic Construction Materials Lecture 23 - Stone, Brick and Mortar 2 - Part 2
Link NOC:Basic Construction Materials Lecture 24 - Cement and Concrete 1 - Part 1
Link NOC:Basic Construction Materials Lecture 25 - Cement and Concrete 1 - Part 2
Link NOC:Basic Construction Materials Lecture 26 - Cement and Concrete 1 - Part 3
Link NOC:Basic Construction Materials Lecture 27 - Cement and Concrete 2 - Part 1
Link NOC:Basic Construction Materials Lecture 28 - Cement and Concrete 2 - Part 2
Link NOC:Basic Construction Materials Lecture 29 - Cement and Concrete 3 - Part 1
Link NOC:Basic Construction Materials Lecture 30 - Cement and Concrete 3 - Part 2
Link NOC:Basic Construction Materials Lecture 31 - Cement and Concrete 4 - Part 1
Link NOC:Basic Construction Materials Lecture 32 - Cement and Concrete 4 - Part 2
Link NOC:Basic Construction Materials Lecture 33 - Metals - 1 - Part 1
Link NOC:Basic Construction Materials Lecture 34 - Metals - 1 - Part 2
Link NOC:Basic Construction Materials Lecture 35 - Metals - 2 - Part 1
Link NOC:Basic Construction Materials Lecture 36 - Metals - 2 - Part 2
Link NOC:Basic Construction Materials Lecture 37 - Metals - 3 - Part 1
Link NOC:Basic Construction Materials Lecture 38 - Metals - 3 - Part 2
Link NOC:Basic Construction Materials Lecture 39 - Metals - 4
Link NOC:Basic Construction Materials Lecture 40 - Metals - 5 - Part 1
Link NOC:Basic Construction Materials Lecture 41 - Metals - 5 - Part 2
Link NOC:Basic Construction Materials Lecture 42 - Polymers and Composites - Part 1
Link NOC:Basic Construction Materials Lecture 43 - Polymers and Composites - Part 2
Link NOC:Basic Construction Materials Lecture 44 - Polymers and Composites - Part 3
Link NOC:Basic Construction Materials Lecture 45 - Pavement Materials 1 - Part 1
Link NOC:Basic Construction Materials Lecture 46 - Pavement Materials 1 - Part 2
Link NOC:Basic Construction Materials Lecture 47 - Pavement Materials 2 - Part 1
Link NOC:Basic Construction Materials Lecture 48 - Pavement Materials 2 - Part 2
Link NOC:Basic Construction Materials Lecture 49 - Wood and wood products - Part 1
Link NOC:Basic Construction Materials Lecture 50 - Wood and wood products - Part 2
Link NOC:Basic Construction Materials Lecture 51 - Glass
Link NOC:Introduction to Lean Construction Lecture 1 - Course Contents, Long-term Goals, Structure and Module 1 Topics
Link NOC:Introduction to Lean Construction Lecture 2 - Pedagogy, Approach, Institutions, Instructors, Audience and Pre-requisites
Link NOC:Introduction to Lean Construction Lecture 3 - ILCE, Conferences, Resources, Further Work Possible
Link NOC:Introduction to Lean Construction Lecture 4 - Lean Implementation in India from ILCE Directors and other Talks/Testimonials
Link NOC:Introduction to Lean Construction Lecture 5 - Status of Lean Implementation in India through Industry Panel Discussion with ILCE Directors
Link NOC:Introduction to Lean Construction Lecture 6 - History of Lean and other Management Philosophies; Toyota Production System (TPS); What is Lean?
Link NOC:Introduction to Lean Construction Lecture 7 - Lean Construction Timeline; Lean Project Delivery vs LC; Project Management vs LC
Link NOC:Introduction to Lean Construction Lecture 8 - Key Lean Concepts#1 (Wastes)
Link NOC:Introduction to Lean Construction Lecture 9 - Key Lean Concepts#1 (Value, Value Stream, Flow, Pull, Perfection)
Link NOC:Introduction to Lean Construction Lecture 10 - Key Lean Concepts#2 (Continuous Improvement, Collaborative working, Production System, Lean Culture)
Link NOC:Introduction to Lean Construction Lecture 11 - Key Lean Tools#1 (Productivity Measurement System, Work Sampling, Value Stream Mapping)
Link NOC:Introduction to Lean Construction Lecture 12 - Lean Overview - Key Lean Tools#2 (5S, CPS/ LPS, Big Room Approach)
Link NOC:Introduction to Lean Construction Lecture 13 - Lean Overview - Future module
Link NOC:Introduction to Lean Construction Lecture 14 - Productivity Measurement and Improvement, Construction Productivtiy, Productivity levels
Link NOC:Introduction to Lean Construction Lecture 15 - What is Productivity, Production?; Illustration
Link NOC:Introduction to Lean Construction Lecture 16 - Productivity and Production Impact; Visualizing Activity Productivity and Production Performance
Link NOC:Introduction to Lean Construction Lecture 17 - Profit, ROCE, Influences on Operational Productivity; Operational view vs. System view, Summary
Link NOC:Introduction to Lean Construction Lecture 18 - Outline, Planning and monitoring levels; Productivity Measurement System
Link NOC:Introduction to Lean Construction Lecture 19 - Measuring Output - Level of Effort (LOE)
Link NOC:Introduction to Lean Construction Lecture 20 - Productivity and Production Calculations: daily, weekly, cumulative
Link NOC:Introduction to Lean Construction Lecture 21 - Productivity and Production Calculations: Performance Evaluation
Link NOC:Introduction to Lean Construction Lecture 22 - Productivity and Production Calculations: Workhour Forecast and Analysis of Trends
Link NOC:Introduction to Lean Construction Lecture 23 - Factors Influencing Productivity, Productivity Improvement Approach, Summary
Link NOC:Introduction to Lean Construction Lecture 24 - Sampling/ Surveying Techniques - Data Sources in Construction
Link NOC:Introduction to Lean Construction Lecture 25 - Construction Activity with Workers doing VA/ NVAN/ NVA; WS vs PMS; Work Sampling
Link NOC:Introduction to Lean Construction Lecture 26 - Sampling basics, Sampling in construction
Link NOC:Introduction to Lean Construction Lecture 27 - Steps to Conduct a Work Sampling Study; WS Outcomes
Link NOC:Introduction to Lean Construction Lecture 28 - Illustration of Tour-based Work Sampling Approach
Link NOC:Introduction to Lean Construction Lecture 29 - Illustration of Crew-based Work Sampling Approach
Link NOC:Introduction to Lean Construction Lecture 30 - Explore relationship between WS Categories and Productivity; Summary
Link NOC:Introduction to Lean Construction Lecture 31 - Sampling/ Surveying Techniques - Foreman delay survey
Link NOC:Introduction to Lean Construction Lecture 32 - Sampling/ Surveying Techniques - Foreman delay survey - Implementation
Link NOC:Introduction to Lean Construction Lecture 33 - Foreman delay survey - Illustrations; Comparison - PMS vs WS vs FDS - discussion
Link NOC:Introduction to Lean Construction Lecture 34 - Value Stream, Value Stream Mapping (VSM), System vs Process, References
Link NOC:Introduction to Lean Construction Lecture 35 - Illustration: Value and Value Stream in Food Delivery
Link NOC:Introduction to Lean Construction Lecture 36 - Value, Value Stream, VSM/PM, Language, Basic VSM - current state and future state
Link NOC:Introduction to Lean Construction Lecture 37 - Key steps for VSM, Work: Degrees of Granularity, Measurement Metrics
Link NOC:Introduction to Lean Construction Lecture 38 - VSM - Example 1 (Reinforcement)
Link NOC:Introduction to Lean Construction Lecture 39 - VSM - Example 2 (Blockwork); Summary
Link NOC:Introduction to Lean Construction Lecture 40 - Flow Process Chart, Symbols, Process mapping - steps and timing, Measurement metrics
Link NOC:Introduction to Lean Construction Lecture 41 - Process mapping - Illustration: Reinforcement shifting
Link NOC:Introduction to Lean Construction Lecture 42 - VSM vs PM; Process Flow chart - variations; Swim-lane diagrams; Summary
Link NOC:Introduction to Lean Construction Lecture 43 - Understand the Basics of 5S, Explanations and 5S Steps
Link NOC:Introduction to Lean Construction Lecture 44 - Understand Each -S- in Detail - Sort, Set in Order, Shine
Link NOC:Introduction to Lean Construction Lecture 45 - Understand Each -S- in Detail - Standardize, Sustain
Link NOC:Introduction to Lean Construction Lecture 46 - 5S: Key Points, Benefits, Signs of a 5S Site
Link NOC:Introduction to Lean Construction Lecture 47 - Experiment 5S with Yourself First, Project Implementation, Facilitations, Why 5S May Fail?, Recap
Link NOC:Introduction to Lean Construction Lecture 48 - Understand the Applications of 5S through Case Studies_2 cases
Link NOC:Introduction to Lean Construction Lecture 49 - Understand the Applications of 5S through Case Studies_3 cases
Link NOC:Introduction to Lean Construction Lecture 50 - Understand the Applications of 5S through Case Study - Ms Diamond Barretto (Godrej Construction)
Link NOC:Introduction to Lean Construction Lecture 51 - Current Project Performance, Workflow Variation, Traditional PM vs Lean Production Management
Link NOC:Introduction to Lean Construction Lecture 52 - Some Key Lean Concepts, Focusing on frontline Execution, CPS - Collaborative Planning System
Link NOC:Introduction to Lean Construction Lecture 53 - CPS Process, Overall Schedules (Master Schedule,Phase Schedule,LAP, Weekly Plan),Constraint Analysis
Link NOC:Introduction to Lean Construction Lecture 54 - Collaborative -Pull- Planning, Percentage Plan Completed (PPC), Daily Huddle, Variance Analysis, RCA
Link NOC:Introduction to Lean Construction Lecture 55 - Lean Work Structuring
Link NOC:Introduction to Lean Construction Lecture 56 - Impact of PPC on Productivity, Key aspects,Advantages,The Necessary Conditions,Blocks - CPS,Summary
Link NOC:Introduction to Lean Construction Lecture 57 - COLPLASSE: Look-Ahead Plan, Constraint Analysis, Weekly Plan, Summary
Link NOC:Introduction to Lean Construction Lecture 58 - Lean Project Delivery System, Conclusion
Link NOC:Introduction to Lean Construction Lecture 59 - Understand the Applications of CPS/LPS through Case Studies
Link NOC:Introduction to Lean Construction Lecture 60 - CPS/LPS implementation in Construction Projects through a Panel of Experts - Part 1
Link NOC:Introduction to Lean Construction Lecture 61 - CPS/LPS implementation in Construction Projects through a Panel of Experts - Part 2
Link NOC:Introduction to Lean Construction Lecture 62 - CPS/LPS implementation in Construction Projects through a Panel of Experts - Part 3
Link NOC:Introduction to Lean Construction Lecture 63 - Introduction of Big Room Approach, Some Requirements for Efficient Working, Virtual BR Meetings
Link NOC:Introduction to Lean Construction Lecture 64 - Big Room Approach through Case Studies
Link NOC:Introduction to Lean Construction Lecture 65 - Big Room Approach - Implementation case from URC Construction
Link NOC:Introduction to Lean Construction Lecture 66 - Future Construction Site, Lean Tools and Processes, Automation strategies and impact, Programming
Link NOC:Introduction to Lean Construction Lecture 67 - Document Management, Workflow Process, Communication/Collab./Authen., Sensing
Link NOC:Introduction to Lean Construction Lecture 68 - Mechanisation/ Robots, Visualization, AI/ Analytics, BIM, CPS/ IOT/ Industry 4.0, Digital Twin
Link NOC:Introduction to Lean Construction Lecture 69 - Challenges and Causes, Problem?, Lean, BIM?, Traditional vs BIM, Tools/Technology providers
Link NOC:Introduction to Lean Construction Lecture 70 - BIM uses; Metrics
Link NOC:Introduction to Lean Construction Lecture 71 - BIM and Lean, Implementation Framework, BIM Execution Plan, Evidence Cases, Key takeaway
Link NOC:Introduction to Lean Construction Lecture 72 - How to Start Practicing Lean Tools in Project Sites-1: Work Sampling
Link NOC:Introduction to Lean Construction Lecture 73 - How to Start Practicing Lean Tools in Project Sites-1: VSM
Link NOC:Introduction to Lean Construction Lecture 74 - How to Start Practicing Lean Tools in Project Sites-1: 5S
Link NOC:Introduction to Lean Construction Lecture 75 - How to Start Practicing Lean Tools in Project Sites-1: CPS/ LPS
Link NOC:Introduction to Lean Construction Lecture 76 - How to Start Practicing Lean Tools in Project Sites-1: Big Room Approach
Link NOC:Introduction to Lean Construction Lecture 77 - Acknowledgement
Link NOC:Design of Connections in Steel Structures Lecture 1 - Bolts: dimensions and material
Link NOC:Design of Connections in Steel Structures Lecture 2 - Bolts: installation techniques and clearances
Link NOC:Design of Connections in Steel Structures Lecture 3 - Design of Bearing type bolts in shear: Basic design principle
Link NOC:Design of Connections in Steel Structures Lecture 4 - Correction factors for bolts for long joints, long grip lengths, and thick packing plate
Link NOC:Design of Connections in Steel Structures Lecture 5 - Design of friction grip bolts in shear and design of bolts in tension
Link NOC:Design of Connections in Steel Structures Lecture 6 - Structural Welding Process
Link NOC:Design of Connections in Steel Structures Lecture 7 - Groove/Butt Welds
Link NOC:Design of Connections in Steel Structures Lecture 8 - Fillet Welds - 1
Link NOC:Design of Connections in Steel Structures Lecture 9 - Fillet Welds - 2
Link NOC:Design of Connections in Steel Structures Lecture 10 - Weld symbols, defects, and filler material
Link NOC:Design of Connections in Steel Structures Lecture 11 - Design of groove welds
Link NOC:Design of Connections in Steel Structures Lecture 12 - Design of fillet welds - 1
Link NOC:Design of Connections in Steel Structures Lecture 13 - Design of fillet welds - 2
Link NOC:Design of Connections in Steel Structures Lecture 14 - Design example of a bolt group
Link NOC:Design of Connections in Steel Structures Lecture 15 - Design example of a weld group
Link NOC:Design of Connections in Steel Structures Lecture 16 - Simple and rigid frame connections
Link NOC:Design of Connections in Steel Structures Lecture 17 - Design of double angle connections
Link NOC:Design of Connections in Steel Structures Lecture 18 - Design of seated angle connections
Link NOC:Design of Connections in Steel Structures Lecture 19 - End-plate rigid connection: Introduction
Link NOC:Design of Connections in Steel Structures Lecture 20 - End-plate connection: Design example
Link NOC:Design of Connections in Steel Structures Lecture 21 - Welded-flange rigid connection
Link NOC:Design of Connections in Steel Structures Lecture 22 - Ductile detailed beam-column connections - 1
Link NOC:Design of Connections in Steel Structures Lecture 23 - Ductile detailed beam-column connections - 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 1 - Pavement Cross-sections and Pavement Design Process
Link NOC:Analysis and Design of Bituminous Pavements Lecture 2 - Pavement Design Factors - I
Link NOC:Analysis and Design of Bituminous Pavements Lecture 3 - Pavement Design Factors - II
Link NOC:Analysis and Design of Bituminous Pavements Lecture 4 - Stresses and Strains in Bituminous Pavements - I
Link NOC:Analysis and Design of Bituminous Pavements Lecture 5 - Stresses and Strains in Bituminous Pavements - II
Link NOC:Analysis and Design of Bituminous Pavements Lecture 6 - Numerical Problems in One-layer Theory
Link NOC:Analysis and Design of Bituminous Pavements Lecture 7 - Numerical Problems in Two-layer Theory
Link NOC:Analysis and Design of Bituminous Pavements Lecture 8 - Introduction to KENLAYER
Link NOC:Analysis and Design of Bituminous Pavements Lecture 9 - KENLAYER - 1
Link NOC:Analysis and Design of Bituminous Pavements Lecture 10 - KENLAYER - 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 11 - KENLAYER - 3
Link NOC:Analysis and Design of Bituminous Pavements Lecture 12 - KENLAYER - 4
Link NOC:Analysis and Design of Bituminous Pavements Lecture 13 - Traffic Analysis - ESWL - Part 1
Link NOC:Analysis and Design of Bituminous Pavements Lecture 14 - Traffic Analysis - ESWL - Part 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 15 - Traffic Analysis - EALF
Link NOC:Analysis and Design of Bituminous Pavements Lecture 16 - Traffic Analysis - ESAL using VDF
Link NOC:Analysis and Design of Bituminous Pavements Lecture 17 - Traffic Analysis - ESAL using TF
Link NOC:Analysis and Design of Bituminous Pavements Lecture 18 - Traffic Analysis - Examples
Link NOC:Analysis and Design of Bituminous Pavements Lecture 19 - Traffic Analysis - Load Spectra Factor
Link NOC:Analysis and Design of Bituminous Pavements Lecture 20 - Modulus for Design - CBR
Link NOC:Analysis and Design of Bituminous Pavements Lecture 21 - Modulus for Design - Resilient modulus (Granular material)
Link NOC:Analysis and Design of Bituminous Pavements Lecture 22 - Modulus for Design - Resilient modulus (Bituminous material)
Link NOC:Analysis and Design of Bituminous Pavements Lecture 23 - Modulus for Design - Dynamic Modulus
Link NOC:Analysis and Design of Bituminous Pavements Lecture 24 - Environmental Effect - Part 1
Link NOC:Analysis and Design of Bituminous Pavements Lecture 25 - Environmental Effect - Part 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 26 - Environmental Effect - Part 3
Link NOC:Analysis and Design of Bituminous Pavements Lecture 27 - Environmental Effect - Part 4
Link NOC:Analysis and Design of Bituminous Pavements Lecture 28 - Enhanced Integrated Climatic Model - Part 1
Link NOC:Analysis and Design of Bituminous Pavements Lecture 29 - Enhanced Integrated Climatic Model - Part 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 30 - Climate Consideration in Design Procedures
Link NOC:Analysis and Design of Bituminous Pavements Lecture 31 - Reliability in Pavement Design - Part 1
Link NOC:Analysis and Design of Bituminous Pavements Lecture 32 - Reliability in Pavement Design - Part 2
Link NOC:Analysis and Design of Bituminous Pavements Lecture 33 - Reliability in Pavement Design - Part 3
Link NOC:Analysis and Design of Bituminous Pavements Lecture 34 - Reliability in Pavement Design - Part 4
Link NOC:Analysis and Design of Bituminous Pavements Lecture 35 - Reliability in Pavement Design - Part 5
Link NOC:Analysis and Design of Bituminous Pavements Lecture 36 - Reliability in Pavement Design - Part 6
Link NOC:Analysis and Design of Bituminous Pavements Lecture 37 - Distress Transfer Function - Fatigue Cracking
Link NOC:Analysis and Design of Bituminous Pavements Lecture 38 - Rutting and Low-Temperature Cracking
Link NOC:Analysis and Design of Bituminous Pavements Lecture 39 - KENLAYER - Nonlinear Analysis
Link NOC:Analysis and Design of Bituminous Pavements Lecture 40 - KENLAYER - Damage Analysis
Link NOC:Analysis and Design of Bituminous Pavements Lecture 41 - IRC design steps
Link NOC:Analysis and Design of Bituminous Pavements Lecture 42 - Design Input and IITPAVE software
Link NOC:Analysis and Design of Bituminous Pavements Lecture 43 - Pavement design with granular base
Link NOC:Analysis and Design of Bituminous Pavements Lecture 44 - Pavement design with CTB
Link NOC:Analysis and Design of Bituminous Pavements Lecture 45 - Pavement design with RAP Base
Link NOC:Analysis and Design of Bituminous Pavements Lecture 46 - Overview of Mechanistic-Empirical Pavement Design Methods - IRC
Link NOC:Analysis and Design of Bituminous Pavements Lecture 47 - Overview of Mechanistic-Empirical Pavement Design Methods - South Africa - Part I
Link NOC:Analysis and Design of Bituminous Pavements Lecture 48 - Overview of Mechanistic-Empirical Pavement Design Methods - South Africa - Part II
Link NOC:Analysis and Design of Bituminous Pavements Lecture 49 - Overview of Mechanistic-Empirical Pavement Design Methods - South Africa - Part III
Link NOC:Analysis and Design of Bituminous Pavements Lecture 50 - Overview of Mechanistic-Empirical Pavement Design Methods - Australia - Part I
Link NOC:Analysis and Design of Bituminous Pavements Lecture 51 - Overview of Mechanistic-Empirical Pavement Design Methods - Australia - Part II
Link NOC:Analysis and Design of Bituminous Pavements Lecture 52 - Overview of Mechanistic-Empirical Pavement Design Methods - AASHTO - Part I
Link NOC:Analysis and Design of Bituminous Pavements Lecture 53 - Overview of Mechanistic-Empirical Pavement Design Methods - AASHTO - Part II
Link NOC:Analysis and Design of Bituminous Pavements Lecture 54 - Summary of the course and design projects
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 1 - Introductory lecture and course outline
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 2 - Matrix algebra and Gauss elimination method
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 3 - Development of equilibrium equations for 1-d systems
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 4 - Development of equilibrium equations for 2-d bar elements and truss structures
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 5 - Development of equilibrium equations for beam elements
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 6 - Virtual work and principle of stationary potential energy
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 7 - Introduction to Rayleigh-Ritz Method
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 8 - Use of GEOFEM finite element program - Part I
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 9 - Use of GEOFEM finite element program - Part II
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 10 - Stresses and strains in continuum
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 11 - 2-dimensional approximations of continuum
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 12 - Analysis of continuum systems
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 13 - 3-node Constant Strain Triangle
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 14 - Classical methods for developing shape functions
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 15 - Numerical integration techniques
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 16 - Isoparametric Elements - Part I
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 17 - Isoparametric Elements - Part II
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 18 - Isoparametric calculations for stiffness and load vectors
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 19 - Force vector due to surface traction
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 20 - Patch test and Finite Element Modelling
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 21 - GEOFEM - Part III
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 22 - In situ earth pressures, construction and excavation sequences
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 23 - Joint and interface element modelling
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 24 - Modelling of interfaces - Joint Elements
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 25 - Mapped infinite elements for semi-infinite soil medium
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 26 - Some observations of soil behaviour and stress invariants
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 27 - Nonlinear analysis technique - 1
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 28 - Nonlinear analysis technique - 2
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 29 - Nonlinear analysis technique - 3
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 30 - Bilinear elastic models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 31 - Nonlinear elastic and hyperbolic models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 32 - Modified hyperbolic model and determination of material parameters
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 33 - Stress correction procedures in finite element analysis
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 34 - Numerical examples on working with modified hyperbolic models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 35 - Some Limit solutions in geotechnical engineering
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 36 - Elastic - Plastic Constitutive Matrix
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 37 - Nonassociated Elastic - Plastic Joint Element
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 38 - Introduction to consolidation and dynamic analysis
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 39 - Cam Clay models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 40 - Modified cam clay models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 41 - FEM in Geotechnical applications
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 42 - Soil behaviour and An Introduction to the Existing Soil Models
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 43 - Simulation of soil liquefaction using FLAC
Link NOC:FEM and Constitutive Modelling in Geomechanics Lecture 44 - Mitigation of soil liquefaction using granular columns
Link NOC:The Evolution of the Earth and life Lecture 1 - Course Structure
Link NOC:The Evolution of the Earth and life Lecture 2 - Introduction to Google Earth
Link NOC:The Evolution of the Earth and life Lecture 3 - How Does Earth Science Work ?
Link NOC:The Evolution of the Earth and life Lecture 4 - What is a Mineral
Link NOC:The Evolution of the Earth and life Lecture 5 - Minerals and Rock Cycle
Link NOC:The Evolution of the Earth and life Lecture 6 - Continental Drift
Link NOC:The Evolution of the Earth and life Lecture 7 - Plate Tectonics
Link NOC:The Evolution of the Earth and life Lecture 8 - What are Igneous Rocks ?
Link NOC:The Evolution of the Earth and life Lecture 9 - Compositional Variation of Igneous Rocks
Link NOC:The Evolution of the Earth and life Lecture 10 - Why Does the Rock Melt ?
Link NOC:The Evolution of the Earth and life Lecture 11 - Igneous Activity and Plate Tectonics
Link NOC:The Evolution of the Earth and life Lecture 12 - Igneous Structures
Link NOC:The Evolution of the Earth and life Lecture 13 - Volcanoes
Link NOC:The Evolution of the Earth and life Lecture 14 - Discussion on Posted Questions
Link NOC:The Evolution of the Earth and life Lecture 15 - What are Metamorphic Rocks
Link NOC:The Evolution of the Earth and life Lecture 16 - Types of Metamorphism
Link NOC:The Evolution of the Earth and life Lecture 17 - Metamorphism and Plate Tectonics
Link NOC:The Evolution of the Earth and life Lecture 18 - Weathering and Erosion
Link NOC:The Evolution of the Earth and life Lecture 19 - Detrital Sedimentary Rocks
Link NOC:The Evolution of the Earth and life Lecture 20 - Chemical and Organic Sedimentary Rocks
Link NOC:The Evolution of the Earth and life Lecture 21 - Sedimentary Environment and Plate Tectonics
Link NOC:The Evolution of the Earth and life Lecture 22 - Discussion on Conceptual Questions
Link NOC:The Evolution of the Earth and life Lecture 23 - Discussion on Posted Questions
Link NOC:The Evolution of the Earth and life Lecture 24 - Diversity of Life
Link NOC:The Evolution of the Earth and life Lecture 25 - Why Do Groups Change ?
Link NOC:The Evolution of the Earth and life Lecture 26 - Nature of Paleontological Data
Link NOC:The Evolution of the Earth and life Lecture 27 - Introduction to PaleoDB
Link NOC:The Evolution of the Earth and life Lecture 28 - Relative Age
Link NOC:The Evolution of the Earth and life Lecture 29 - Correlation
Link NOC:The Evolution of the Earth and life Lecture 30 - Attempts to Estimate Absolute Age
Link NOC:The Evolution of the Earth and life Lecture 31 - Radiometric Dating
Link NOC:The Evolution of the Earth and life Lecture 32 - Rocks Full of Life
Link NOC:The Evolution of the Earth and life Lecture 33 - Discussion on Posted Questions_3
Link NOC:The Evolution of the Earth and life Lecture 34 - The Beginning
Link NOC:The Evolution of the Earth and life Lecture 35 - The Formation of the Planets and Moon
Link NOC:The Evolution of the Earth and life Lecture 36 - The Formation of the Continents
Link NOC:The Evolution of the Earth and life Lecture 37 - The Formation of the Atmosphere and Ocean
Link NOC:The Evolution of the Earth and life Lecture 38 - Origin of Life: Initial Ideas
Link NOC:The Evolution of the Earth and life Lecture 39 - Origin of Life: Which Biomolecules Came First ?
Link NOC:The Evolution of the Earth and life Lecture 40 - Origin of Life: Where did it all Start ?
Link NOC:The Evolution of the Earth and life Lecture 41 - Evidence of Early Life
Link NOC:The Evolution of the Earth and life Lecture 42 - Proterozoic Events and Life
Link NOC:The Evolution of the Earth and life Lecture 43 - Discussion on Posted Questions_4
Link NOC:The Evolution of the Earth and life Lecture 44 - Cambrian Earth and Life
Link NOC:The Evolution of the Earth and life Lecture 45 - Cambrian Explosion
Link NOC:The Evolution of the Earth and life Lecture 46 - Journey to Land: Fishes and Tetrapods
Link NOC:The Evolution of the Earth and life Lecture 47 - Journey to Land: Transitional Forms
Link NOC:The Evolution of the Earth and life Lecture 48 - Appearance of Amniotes
Link NOC:The Evolution of the Earth and life Lecture 49 - Dinosaurs
Link NOC:The Evolution of the Earth and life Lecture 50 - Dinosaurs Footprints
Link NOC:The Evolution of the Earth and life Lecture 51 - Appearance of Feathers
Link NOC:The Evolution of the Earth and life Lecture 52 - Mass Extinctions and Their Impact
Link NOC:The Evolution of the Earth and life Lecture 53 - K-Pg Extinction: Patterns
Link NOC:The Evolution of the Earth and life Lecture 54 - K-Pg Extinction: Mechanisms
Link NOC:The Evolution of the Earth and life Lecture 55 - Paleoclimatic Reconstruction
Link NOC:The Evolution of the Earth and life Lecture 56 - Cenozoic Climate
Link NOC:The Evolution of the Earth and life Lecture 57 - Recovery from K-Pg: Paleogene Event
Link NOC:The Evolution of the Earth and life Lecture 58 - Who are Whales ?
Link NOC:The Evolution of the Earth and life Lecture 59 - Discussion on Posted Questions_5
Link NOC:The Evolution of the Earth and life Lecture 60 - Development of Bipedality
Link NOC:The Evolution of the Earth and life Lecture 61 - Early Hominids
Link NOC:The Evolution of the Earth and life Lecture 62 - Megafaunal Extinction
Link NOC:The Evolution of the Earth and life Lecture 63 - Recent Extinctions
Link NOC:The Evolution of the Earth and life Lecture 64 - Anthropocene and Future
Link NOC:The Evolution of the Earth and life Lecture 65 - Discussion on Posted Questions_6
Link NOC:Advanced Reinforced Concrete Design Lecture 1 - Introduction-Overview of RCC - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 2 - Introduction-Overview of RCC - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 3 - Introduction to Design Concepts and Philosophies - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 4 - Introduction to Design Concepts and Philosophies - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 5 - Materials Short Term Properties - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 6 - Materials Short Term Properties - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 7 - Materials Short Term Properties - Part 3
Link NOC:Advanced Reinforced Concrete Design Lecture 8 - Materials Short Term Properties - Part 4
Link NOC:Advanced Reinforced Concrete Design Lecture 9 - Materials Long Term Properties - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 10 - Materials Long Term Properties - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 11 - Materials Rebar Properties
Link NOC:Advanced Reinforced Concrete Design Lecture 12 - Durability - Overview
Link NOC:Advanced Reinforced Concrete Design Lecture 13 - Durability - Effect of Chemical actions
Link NOC:Advanced Reinforced Concrete Design Lecture 14 - Durability - Effect of Physical,mechanical and corrosion
Link NOC:Advanced Reinforced Concrete Design Lecture 15 - Durability - Design approaches and code provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 16 - Axial Behaviour - Introduction
Link NOC:Advanced Reinforced Concrete Design Lecture 17 - Axial Behaviour of Reinforced Concrete
Link NOC:Advanced Reinforced Concrete Design Lecture 18 - Axial Behaviour - Effect of Compressive Strength
Link NOC:Advanced Reinforced Concrete Design Lecture 19 - Flexure Behaviour - Background to flexural theory
Link NOC:Advanced Reinforced Concrete Design Lecture 20 - Flexure Behaviour - Moment curvature analysis-procedure
Link NOC:Advanced Reinforced Concrete Design Lecture 21 - Flexure Behaviour - Example-Moment curvature of singly reinforced section
Link NOC:Advanced Reinforced Concrete Design Lecture 22 - Flexure Behaviour - Effect of increasing reinforcement on Moment curvature behaviour
Link NOC:Advanced Reinforced Concrete Design Lecture 23 - Flexure Behaviour - Effect of compressive strength on Moment curvature behaviour
Link NOC:Advanced Reinforced Concrete Design Lecture 24 - Flexure Behaviour - Effect of axial Compression on Moment curvature behaviour - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 25 - Flexure Behaviour - Effect of axial Compression on Moment curvature behaviour - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 26 - Flexure Behaviour - Effect of Compression steel on Moment curvature behaviour - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 27 - Flexure Behaviour - Effect of Compression steel on Moment curvature behaviour - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 28 - Flexure Behaviour - Analysis and Design of Singly Reinforced Sections using IS Code - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 29 - Flexure Behaviour - Analysis and Design of Singly Reinforced Sections using IS Code - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 30 - Flexure Behaviour - Examples in Flexure using IS Code Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 31 - Flexure Behaviour - Analysis and Design of Doubly Reinforced Sections using IS Code
Link NOC:Advanced Reinforced Concrete Design Lecture 32 - Flexure Behaviour - Analysis and Design of Flanged Sections using IS Code Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 33 - Shear Behaviour of RC elements - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 34 - Shear Behaviour of RC elements - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 35 - Shear Behaviour of RC elements - Part 3
Link NOC:Advanced Reinforced Concrete Design Lecture 36 - Shear Behaviour - Shear Design using IS 456 Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 37 - Shear Behaviour - Examples for Shear Design using IS 456 Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 38 - Shear Behaviour - Torsional Behaviour of RC elements - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 39 - Shear Behaviour - Torsional Behaviour of RC elements - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 40 - Shear Behaviour - Torsional Behaviour of RC elements - Part 3
Link NOC:Advanced Reinforced Concrete Design Lecture 41 - Shear Behaviour - Torsion Design of RC Beams using IS 456 Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 42 - Compression behaviour of RC Columns - Intro and Types - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 43 - Compression behaviour of RC Columns - Short vs Slender and Effective length - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 44 - Compression behaviour of RC Columns - Lateral Flexibility and Example - Part 3
Link NOC:Advanced Reinforced Concrete Design Lecture 45 - Compression behaviour of RC Columns IS Code Provisions - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 46 - Compression behaviour of RC Columns Confinement and Tied Vs Spiral Confined Columns - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 47 - Compression behaviour of RC Columns - P-M Interaction : Theory
Link NOC:Advanced Reinforced Concrete Design Lecture 48 - Compression behaviour of RC Columns - P-M Interaction : Example as per IS 456
Link NOC:Advanced Reinforced Concrete Design Lecture 49 - Compression behaviour of Design of RC Columns for Biaxial Bending - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 50 - Compression behaviour of Design of RC Columns for Biaxial Bending - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 51 - Compression behaviour of Slender Column Design: Theory - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 52 - Compression behaviour of Slender Column Design: Example as per IS 456 - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 53 - Serviceability - Introduction to Deflection of RC Beam Part - 1
Link NOC:Advanced Reinforced Concrete Design Lecture 54 - Serviceability - Introduction to Deflection of RC Beam Part - 2
Link NOC:Advanced Reinforced Concrete Design Lecture 55 - Serviceability - Long term deflection and IS code Provisions
Link NOC:Advanced Reinforced Concrete Design Lecture 56 - Serviceability - Numerical Example for the calculation of Deflection of RC beam
Link NOC:Advanced Reinforced Concrete Design Lecture 57 - Crack width calculation - Theory - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 58 - Crack width Calculation - Example - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 59 - Serviceability - Design for Bond - Theory - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 60 - Serviceability - Design for Bond - Theory - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 61 - Serviceability - Design example for Bond and Splicing - Part 3
Link NOC:Advanced Reinforced Concrete Design Lecture 62 - Two way slabs - Background
Link NOC:Advanced Reinforced Concrete Design Lecture 63 - Two way slabs - Design Methods
Link NOC:Advanced Reinforced Concrete Design Lecture 64 - Two way slabs - Direct Design Method - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 65 - Two way slabs - Direct Design Method - Part 2
Link NOC:Advanced Reinforced Concrete Design Lecture 66 - Two way slabs - Equivalent Frame Method - Part 1
Link NOC:Advanced Reinforced Concrete Design Lecture 67 - Two way slabs - Equivalent Frame Method (Example) - Part 2
Link NOC:Admixtures and Special Concretes Lecture 1 - Overview of Cement Chemistry and concrete performance: Cement history and production
Link NOC:Admixtures and Special Concretes Lecture 2 - Overview of Cement Chemistry and concrete performance: Quality control and composition
Link NOC:Admixtures and Special Concretes Lecture 3 - Overview of Cement Chemistry: Composition of Cement and Classification of Cement
Link NOC:Admixtures and Special Concretes Lecture 4 - Overview of Cement Chemistry: Hydration of Cement
Link NOC:Admixtures and Special Concretes Lecture 5 - Overview of Concrete Performance: Curing and Hardened Concrete
Link NOC:Admixtures and Special Concretes Lecture 6 - Overview of Concrete Performance: Basics of Hardened Concrete
Link NOC:Admixtures and Special Concretes Lecture 7 - Chemical Admixtures: Introduction
Link NOC:Admixtures and Special Concretes Lecture 8 - Chemical Admixtures: Water reducers - Part 1
Link NOC:Admixtures and Special Concretes Lecture 9 - Chemical Admixtures: Water reducers - Part 2
Link NOC:Admixtures and Special Concretes Lecture 10 - Chemical Admixtures: Water reducers - Part 3
Link NOC:Admixtures and Special Concretes Lecture 11 - Chemical Admixtures: Water reducers - Part 4
Link NOC:Admixtures and Special Concretes Lecture 12 - Chemical Admixtures: Water reducers - Part 5
Link NOC:Admixtures and Special Concretes Lecture 13 - Chemical Admixtures: Water reducers - Part 6
Link NOC:Admixtures and Special Concretes Lecture 14 - Chemical Admixtures: Set controllers
Link NOC:Admixtures and Special Concretes Lecture 15 - Chemical Admixtures: Set controllers - Accelerators
Link NOC:Admixtures and Special Concretes Lecture 16 - Chemical Admixtures: Set controllers - Retarders
Link NOC:Admixtures and Special Concretes Lecture 17 - Chemical Admixtures: Standards
Link NOC:Admixtures and Special Concretes Lecture 18 - Chemical Admixtures: Air entrainers - Part 1
Link NOC:Admixtures and Special Concretes Lecture 19 - Chemical Admixtures: Air entrainers - Part 2
Link NOC:Admixtures and Special Concretes Lecture 20 - Chemical Admixtures: Understanding Concrete Rheology - Part 1
Link NOC:Admixtures and Special Concretes Lecture 21 - Chemical Admixtures: Understanding Concrete Rheology - Part 2
Link NOC:Admixtures and Special Concretes Lecture 22 - Chemical Admixtures: Viscosity Modifying Agents (VMA)
Link NOC:Admixtures and Special Concretes Lecture 23 - Chemical Admixtures: Mechanism of corrosion
Link NOC:Admixtures and Special Concretes Lecture 24 - Chemical Admixtures: Corrosion inhibitors, Shrinkage reducing admixtures
Link NOC:Admixtures and Special Concretes Lecture 25 - Chemical Admixtures: Other specialty admixtures
Link NOC:Admixtures and Special Concretes Lecture 26 - Chemical Admixtures: Curing compounds
Link NOC:Admixtures and Special Concretes Lecture 27 - Mineral Admixtures: Introduction
Link NOC:Admixtures and Special Concretes Lecture 28 - Mineral Admixtures: Types, Composition and Particle size distribution
Link NOC:Admixtures and Special Concretes Lecture 29 - Mineral Admixtures: Microstructure of SCMs and Pozzolonic reactions
Link NOC:Admixtures and Special Concretes Lecture 30 - Mineral Admixtures: Pozzolonic activity
Link NOC:Admixtures and Special Concretes Lecture 31 - Mineral Admixtures: Electrical Conductivity method, Frattini test and Lime saturation method
Link NOC:Admixtures and Special Concretes Lecture 32 - Mineral Admixtures: Strength Activity test, Lime reactivity test, Mixture Proportioning and R3 test
Link NOC:Admixtures and Special Concretes Lecture 33 - Mineral Admixtures: Flyash - Part 1: Introduction
Link NOC:Admixtures and Special Concretes Lecture 34 - Mineral Admixtures: Flyash - Part 2: Classification and structure
Link NOC:Admixtures and Special Concretes Lecture 35 - Mineral Admixtures: Flyash - Part 3: Effects on fresh concrete
Link NOC:Admixtures and Special Concretes Lecture 36 - Mineral Admixtures: Flyash - Part 4: Effects on hardened concrete
Link NOC:Admixtures and Special Concretes Lecture 37 - Mineral Admixtures: Silica fume - Part 1: Introduction
Link NOC:Admixtures and Special Concretes Lecture 38 - Mineral Admixtures: Silica fume - Part 2: Effects on fresh and hardened concrete
Link NOC:Admixtures and Special Concretes Lecture 39 - Mineral Admixtures: Silica fume - Part 3: Effects on Microstructure + GGBS - Part 1 : Introduction
Link NOC:Admixtures and Special Concretes Lecture 40 - Mineral Admixtures: GGBS - Part 2 : Properties
Link NOC:Admixtures and Special Concretes Lecture 41 - Mineral Admixtures: GGBS - Part 3 : Hydration of slag and Durability of slag cements
Link NOC:Admixtures and Special Concretes Lecture 42 - Mineral Admixtures: Metakaolin
Link NOC:Admixtures and Special Concretes Lecture 43 - Mineral Admixtures: LC3 - Part 1 : Introduction
Link NOC:Admixtures and Special Concretes Lecture 44 - Mineral Admixtures: LC3 - Part 2 : Comparision with other SCMs
Link NOC:Admixtures and Special Concretes Lecture 45 - Mineral Admixtures: LC3 - Part 3 : Durability Performance
Link NOC:Admixtures and Special Concretes Lecture 46 - Mineral Admixtures: Agricultural ashes - Part 1 : Sugarcane bagasse ash
Link NOC:Admixtures and Special Concretes Lecture 47 - Mineral Admixtures: Agricultural ashes - Part 2 : Rice husk ash
Link NOC:Admixtures and Special Concretes Lecture 48 - Mineral Admixtures: Calorimeter
Link NOC:Admixtures and Special Concretes Lecture 49 - Mineral Admixtures: Pore solution analysis
Link NOC:Admixtures and Special Concretes Lecture 50 - Mineral Admixtures: CASH analysis in blended system and Life cycle assessment of concrete - Part 1
Link NOC:Admixtures and Special Concretes Lecture 51 - Life cycle assessment of concrete - Part 2
Link NOC:Admixtures and Special Concretes Lecture 52 - Life cycle assessment of concrete - Part 3
Link NOC:Admixtures and Special Concretes Lecture 53 - Special concretes - High strength concrete - Definition, design and concept of particle packing
Link NOC:Admixtures and Special Concretes Lecture 54 - Special concretes - High strength concrete - Particle packing models
Link NOC:Admixtures and Special Concretes Lecture 55 - Special concretes - High strength concrete - Mix designs, strength and durability
Link NOC:Admixtures and Special Concretes Lecture 56 - Special concretes - High strength concrete - Design attributes, fresh and hardened properties
Link NOC:Admixtures and Special Concretes Lecture 57 - Special concretes - High strength concrete - Stress:strain relationships, applications
Link NOC:Admixtures and Special Concretes Lecture 58 - Special concretes - Ultra high performance concrete - Design principles, strength, durability
Link NOC:Admixtures and Special Concretes Lecture 59 - Special concretes: Self compacting concrete -Introduction, design requirements and plastic shrinkage
Link NOC:Admixtures and Special Concretes Lecture 60 - Special concretes: Self compacting concrete - Segregation and laboratory tests
Link NOC:Admixtures and Special Concretes Lecture 61 - Special concretes - Self Compacting Concrete - Workability test methods, classifications and issues
Link NOC:Admixtures and Special Concretes Lecture 62 - Special concretes - Self Compacting Concrete - Design principles, mix designs, concrete properties
Link NOC:Admixtures and Special Concretes Lecture 63 - Special concretes - Mass concrete - Introduction, materials, thermal cracking
Link NOC:Admixtures and Special Concretes Lecture 64 - Special concretes - Mass concrete - Design guidelines, temperature differential measurement
Link NOC:Admixtures and Special Concretes Lecture 65 - Special concretes - Mass concrete - Temperature differential measurement, Design
Link NOC:Admixtures and Special Concretes Lecture 66 - Special concretes - Mass concrete - Temperature monitoring, nomogram, minimizing restraints
Link NOC:Admixtures and Special Concretes Lecture 67 - Special concretes - Mass concrete - Heat modelling
Link NOC:Admixtures and Special Concretes Lecture 68 - Special concretes - Lightweight concrete - Introduction, classifications
Link NOC:Admixtures and Special Concretes Lecture 69 - Special concretes - Lightweight concrete - Foamed concrete, lightweight aggregates
Link NOC:Admixtures and Special Concretes Lecture 70 - Special concretes - Lightweight concrete - Light weigh aggregates, aerated concrete
Link NOC:Admixtures and Special Concretes Lecture 71 - Special concretes - High density concrete - Heavy weight aggregates, design, case stud
Link NOC:Admixtures and Special Concretes Lecture 72 - Special concretes - Concrete for 3D printing - Introduction, classification, printing process
Link NOC:Admixtures and Special Concretes Lecture 73 - Special concretes - Concrete for 3D printing - Developments, advantages, case study
Link NOC:Admixtures and Special Concretes Lecture 74 - Special concretes - Concrete for 3D printing - Critical parameters, yield stress
Link NOC:Admixtures and Special Concretes Lecture 75 - Special concretes - Concrete for 3D printing - Mix design approach, admixtures
Link NOC:Admixtures and Special Concretes Lecture 76 - Special concretes - Concrete for 3D printing - Failure modes, buildability, early-age beahaviour
Link Foundation Engineering Lecture 1 - Shallow Foundation - 1
Link Foundation Engineering Lecture 2 - Shallow Foundation - 2
Link Foundation Engineering Lecture 3 - Shallow Foundation - 3
Link Foundation Engineering Lecture 4 - Shallow Foundation - 4
Link Foundation Engineering Lecture 5 - Shallow Foundation - 5
Link Foundation Engineering Lecture 6 - Shallow Foundation - 6
Link Foundation Engineering Lecture 7 - Shallow Foundation - 7
Link Foundation Engineering Lecture 8 - Lateral Earth pressure Theories Retaining Walls - 1
Link Foundation Engineering Lecture 9 - Lateral Earth pressure Theories Retaining Walls - 2
Link Foundation Engineering Lecture 10 - Lateral Earth pressure Theories Retaining Walls - 3
Link Foundation Engineering Lecture 11 - Lateral Earth Pressure Theories Retaining Walls - 4
Link Foundation Engineering Lecture 12 - Lateral Earth Pressure Theories Retaining Walls - 5
Link Foundation Engineering Lecture 13 - Pile Foundations - 1
Link Foundation Engineering Lecture 14 - Pile Foundations - 2
Link Foundation Engineering Lecture 15 - Pile Foundations - 3
Link Foundation Engineering Lecture 16 - Pile Foundations - 4
Link Foundation Engineering Lecture 17 - Pile Foundations - 5
Link Foundation Engineering Lecture 18 - Pile Foundations - 6
Link Foundation Engineering Lecture 19 - Pile Foundations - 7
Link Foundation Engineering Lecture 20 - Machine Foundations - 1
Link Foundation Engineering Lecture 21 - Machine Foundations - 2
Link Foundation Engineering Lecture 22 - Machine Foundations - 3
Link Foundation Engineering Lecture 23 - Machine Foundations - 4
Link Foundation Engineering Lecture 24 - Well Foundations - 1
Link Foundation Engineering Lecture 25 - Well Foundations - 2
Link Foundation Engineering Lecture 26 - Well Foundations - 3
Link Foundation Engineering Lecture 27 - Foundation Engineering - 1
Link Foundation Engineering Lecture 28 - Foundation Engineering - 2
Link Foundation Engineering Lecture 29 - Foundation Engineering - 3
Link Foundation Engineering Lecture 30 - Foundation Engineering - 4
Link Foundation Engineering Lecture 31 - Foundation Engineering - 5
Link Foundation Engineering Lecture 32 - Foundation Engineering - 6
Link Foundation Engineering Lecture 33 - Foundation Engineering - 7
Link Foundation Engineering Lecture 34 - Foundation Engineering - 8
Link Foundation Engineering Lecture 35 - Foundation Engineering - 9
Link Foundation Engineering Lecture 36 - Foundation Engineering - 10
Link Foundation Engineering Lecture 37 - Foundation Engineering - 11
Link Foundation Engineering Lecture 38 - Foundation Engineering - 12
Link Foundation Engineering Lecture 39 - Foundation Engineering - 13
Link Foundation Engineering Lecture 40 - Foundation Engineering - 14
Link Modern Surveying Techniques Lecture 1 - Geographic Information System An Introduction
Link Modern Surveying Techniques Lecture 2 - Introduction to Global Positioning System
Link Modern Surveying Techniques Lecture 3 - GPS Positioning Methods
Link Modern Surveying Techniques Lecture 4 - GPS Solutions and Errors
Link Modern Surveying Techniques Lecture 5 - GPS Application
Link Modern Surveying Techniques Lecture 6 - Remote Sensing Introduction
Link Modern Surveying Techniques Lecture 7 - Electromagnetic Spectrum
Link Modern Surveying Techniques Lecture 8 - Sensors and Platform
Link Modern Surveying Techniques Lecture 9 - Sensors and Platform
Link Modern Surveying Techniques Lecture 10 - Image Interpretation
Link Modern Surveying Techniques Lecture 11 - Statistical Evaluation of RS Data
Link Modern Surveying Techniques Lecture 12 - Rectification and Restoration
Link Modern Surveying Techniques Lecture 13 - Image Enhancement
Link Modern Surveying Techniques Lecture 14 - Image Transformation
Link Modern Surveying Techniques Lecture 15 - Orthogonal Transformation
Link Modern Surveying Techniques Lecture 16 - Image Classification (Supervised Classification)
Link Modern Surveying Techniques Lecture 17 - Image Classification (Unsupervised Classification)
Link Modern Surveying Techniques Lecture 18 - Spatial Filtering-Noise Removal
Link Modern Surveying Techniques Lecture 19 - Spatial Filtering-Edge Removal
Link Modern Surveying Techniques Lecture 20 - Photogramatic-Basic concepts of a single photography
Link Modern Surveying Techniques Lecture 21 - Stereoscopy-Basic concepts
Link Modern Surveying Techniques Lecture 22 - Stereoscopy-Geometry of overlaping photograph
Link Modern Surveying Techniques Lecture 23 - Terrestrial Photogrammetry
Link Modern Surveying Techniques Lecture 24 - Digital Elevation Model-Basic Concepts
Link Modern Surveying Techniques Lecture 25 - Digital Elevation Model-Data Input and Stamping
Link Modern Surveying Techniques Lecture 26 - Digital Elevation Model-Surface representation and analysis
Link Modern Surveying Techniques Lecture 27 - GIS-Introductory Concepts
Link Modern Surveying Techniques Lecture 28 - GIS-Data Input
Link Modern Surveying Techniques Lecture 29 - Data Verification and Editing
Link Modern Surveying Techniques Lecture 30 - GIS Data Model
Link Modern Surveying Techniques Lecture 31 - GIS Data Base
Link Modern Surveying Techniques Lecture 32 - Spatial Analysis
Link Modern Surveying Techniques Lecture 33 - Map Overlay and Spatial Correlation
Link Modern Surveying Techniques Lecture 34 - Application to Drought Management
Link Modern Surveying Techniques Lecture 35 - GIS base planning model for educational facilities in rural areas
Link Modern Surveying Techniques Lecture 36 - Application extraction of building attributes
Link Modern Surveying Techniques Lecture 37 - Zonal based tourism planning
Link Modern Surveying Techniques Lecture 38 - Zonal Planning using remote sensing
Link Modern Surveying Techniques Lecture 39 - Municipal GIS for assassment of property tax
Link Modern Surveying Techniques Lecture 40 - Application of remote sensing
Link Transportation Engineering II Lecture 1 - Introduction to Railway Engineering
Link Transportation Engineering II Lecture 2 - Gauges and Permanent Way
Link Transportation Engineering II Lecture 3 - Wheel and Axles, Coning of Wheels
Link Transportation Engineering II Lecture 4 - Track Resistances, Hauling Capacity
Link Transportation Engineering II Lecture 5 - Track Modulus, Stresses in Track
Link Transportation Engineering II Lecture 6 - Stresses in Components of Track
Link Transportation Engineering II Lecture 7 - Rails
Link Transportation Engineering II Lecture 8 - Creep in Rails
Link Transportation Engineering II Lecture 9 - Wears & Failures in Rails
Link Transportation Engineering II Lecture 10 - Jointed or Welded rails
Link Transportation Engineering II Lecture 11 - Sleepers
Link Transportation Engineering II Lecture 12 - Ballast
Link Transportation Engineering II Lecture 13 - Fastenings
Link Transportation Engineering II Lecture 14 - Geometric Design - Alignment of Track
Link Transportation Engineering II Lecture 15 - Horizontal Curve and Super elevation
Link Transportation Engineering II Lecture 16 - Speeds on Track
Link Transportation Engineering II Lecture 17 - Transition Curve & Widening of Track
Link Transportation Engineering II Lecture 18 - Vertical Curve & Gradients
Link Transportation Engineering II Lecture 19 - Turnouts - Components
Link Transportation Engineering II Lecture 20 - Crossing and Design of Turnout
Link Transportation Engineering II Lecture 21 - Track Junctions and Designs
Link Transportation Engineering II Lecture 22 - Signals - Part 1
Link Transportation Engineering II Lecture 23 - Signals - Part 2
Link Transportation Engineering II Lecture 24 - Train Control Systems
Link Transportation Engineering II Lecture 25 - Interlocking of Track
Link Transportation Engineering II Lecture 26 - High Speed Tracks
Link Transportation Engineering II Lecture 27 - Introduction of Air Transport
Link Transportation Engineering II Lecture 28 - Aircraft Characteristics
Link Transportation Engineering II Lecture 29 - Aircraft Controls, Airport Site&Size Selection
Link Transportation Engineering II Lecture 30 - Airport Obstructions
Link Transportation Engineering II Lecture 31 - Runway Orientation
Link Transportation Engineering II Lecture 32 - Runway Length
Link Transportation Engineering II Lecture 33 - Runway Geometric
Link Transportation Engineering II Lecture 34 - Taxiway
Link Transportation Engineering II Lecture 35 - Exit Taxiway
Link Transportation Engineering II Lecture 36 - Aprons and Aircraft Parking
Link Transportation Engineering II Lecture 37 - Terminal Area and Building
Link Transportation Engineering II Lecture 38 - Terminal Planning and Hangers
Link Transportation Engineering II Lecture 39 - Visual Aids-Markings
Link Transportation Engineering II Lecture 40 - Visual Aids-Lighting and Signage
Link NOC:Introduction to Geographic Information Systems Lecture 1 - What is Geographic Information Systems ?
Link NOC:Introduction to Geographic Information Systems Lecture 2 - Different components of GIS
Link NOC:Introduction to Geographic Information Systems Lecture 3 - Different types of vector data and concept of topology
Link NOC:Introduction to Geographic Information Systems Lecture 4 - Raster data models and comparisons with vector
Link NOC:Introduction to Geographic Information Systems Lecture 5 - TIN data model and comparisons with raster
Link NOC:Introduction to Geographic Information Systems Lecture 6 - Non-spatial data (attributes) and their type
Link NOC:Introduction to Geographic Information Systems Lecture 7 - Raster data compression techniques
Link NOC:Introduction to Geographic Information Systems Lecture 8 - Spatial database systems and their types
Link NOC:Introduction to Geographic Information Systems Lecture 9 - Pre-processing of spatial datasets
Link NOC:Introduction to Geographic Information Systems Lecture 10 - Geo-referencing
Link NOC:Introduction to Geographic Information Systems Lecture 11 - Different map projections
Link NOC:Introduction to Geographic Information Systems Lecture 12 - Spatial interpolation techniques
Link NOC:Introduction to Geographic Information Systems Lecture 13 - Digital Elevation Models and different types of resolutions
Link NOC:Introduction to Geographic Information Systems Lecture 14 - Quality assessment of freely available DEMS
Link NOC:Introduction to Geographic Information Systems Lecture 15 - GIS analysis - Part 1
Link NOC:Introduction to Geographic Information Systems Lecture 16 - GIS analysis - Part 2 (Overlaying Operations)
Link NOC:Introduction to Geographic Information Systems Lecture 17 - GIS analysis - Part 3 (Buffer Analysis)
Link NOC:Introduction to Geographic Information Systems Lecture 18 - Classification Methods
Link NOC:Introduction to Geographic Information Systems Lecture 19 - Errors in GIS and Key elements of maps
Link NOC:Introduction to Geographic Information Systems Lecture 20 - Limitations of GIS
Link NOC:Principles and Applications of Building Science Lecture 1 - Solar Geometry
Link NOC:Principles and Applications of Building Science Lecture 2 - Climate Classification
Link NOC:Principles and Applications of Building Science Lecture 3 - Thermal Comfort in Built Environment - 1
Link NOC:Principles and Applications of Building Science Lecture 4 - Thermal Comfort in Built Environment - 2
Link NOC:Principles and Applications of Building Science Lecture 5 - Thermal Adaptation
Link NOC:Principles and Applications of Building Science Lecture 6 - Bioclimatic Assessment
Link NOC:Principles and Applications of Building Science Lecture 7 - Thermal Performance of Building Envelop
Link NOC:Principles and Applications of Building Science Lecture 8 - Thermal Performance of Building Envelop - Indices and Measures (1/2)
Link NOC:Principles and Applications of Building Science Lecture 9 - Thermal Performance of Building Envelop - Indices and Measures (2/2)
Link NOC:Principles and Applications of Building Science Lecture 10 - Glazing and Shading Systems
Link NOC:Principles and Applications of Building Science Lecture 11 - Shading Analysis
Link NOC:Principles and Applications of Building Science Lecture 12 - Energy Efficiency and Simulation
Link NOC:Principles and Applications of Building Science Lecture 13 - Building Acoustics - Basics
Link NOC:Principles and Applications of Building Science Lecture 14 - Sound Propagation
Link NOC:Principles and Applications of Building Science Lecture 15 - Acoustic Quality Indicators (1/2)
Link NOC:Principles and Applications of Building Science Lecture 16 - Acoustic Quality Indicators (2/2)
Link NOC:Principles and Applications of Building Science Lecture 17 - Acoustic Design Considerations
Link NOC:Principles and Applications of Building Science Lecture 18 - Acoustic Materials
Link NOC:Principles and Applications of Building Science Lecture 19 - Lighting - Basics
Link NOC:Principles and Applications of Building Science Lecture 20 - Lighting – Design Concepts
Link NOC:GPS Surveying Lecture 1 - Introduction (GPS Surveying and Applications)
Link NOC:GPS Surveying Lecture 2 - GPS System
Link NOC:GPS Surveying Lecture 3 - GPS Signal (Civilian Perspective)
Link NOC:GPS Surveying Lecture 4 - GPS Receiver
Link NOC:GPS Surveying Lecture 5 - GPS Software
Link NOC:GPS Surveying Lecture 6 - GPS Position
Link NOC:GPS Surveying Lecture 7 - GPS Positioning (Principle and Methods)
Link NOC:GPS Surveying Lecture 8 - Field demonstration of GPS Positioning Method
Link NOC:GPS Surveying Lecture 9 - GPS Observables (Types, Errors and Quality)
Link NOC:GPS Surveying Lecture 10 - Errors in GPS Observables (Systematics Errors)
Link NOC:GPS Surveying Lecture 11 - GPS Data Pre-Processing - I
Link NOC:GPS Surveying Lecture 12 - GPS Data Pre-Processing - II
Link NOC:GPS Surveying Lecture 13 - GPS Data Processing - I
Link NOC:GPS Surveying Lecture 14 - GPS Data Processing - II
Link NOC:GPS Surveying Lecture 15 - Quality Assessment of GPS Surveying
Link NOC:GPS Surveying Lecture 16 - Procedure of GPS Surveying - I
Link NOC:GPS Surveying Lecture 17 - Procedure of GPS Surveying - II
Link NOC:GPS Surveying Lecture 18 - Procedure of GPS Surveying - III
Link NOC:GPS Surveying Lecture 19 - GPS Field Surveying
Link NOC:GPS Surveying Lecture 20 - GPS Data Processing
Link NOC:Digital Land Surveying And Mapping Lecture 1 - Introduction and Applications
Link NOC:Digital Land Surveying And Mapping Lecture 2 - Fundamentals and Operations
Link NOC:Digital Land Surveying And Mapping Lecture 3 - Overview of Digital Land Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 4 - Introduction of GPS
Link NOC:Digital Land Surveying And Mapping Lecture 5 - GPS Signal (Civilian Perspective)
Link NOC:Digital Land Surveying And Mapping Lecture 6 - GPS User Segment
Link NOC:Digital Land Surveying And Mapping Lecture 7 - GPS Positioning of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 8 - Demonstration of GPS Receivers, Software and Positioning of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 9 - GPS Position
Link NOC:Digital Land Surveying And Mapping Lecture 10 - Principle of GPS Positioning and GPS Observables
Link NOC:Digital Land Surveying And Mapping Lecture 11 - Errors in GPS Observables
Link NOC:Digital Land Surveying And Mapping Lecture 12 - GPS Data Pre-processing: Differencing
Link NOC:Digital Land Surveying And Mapping Lecture 13 - GPS Data Pre-processing: Point Positioning
Link NOC:Digital Land Surveying And Mapping Lecture 14 - GPS Data Processing: Baseline Processing
Link NOC:Digital Land Surveying And Mapping Lecture 15 - GPS Data Processing: Network Adjustment
Link NOC:Digital Land Surveying And Mapping Lecture 16 - Quality Assessment of GPS Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 17 - Introduction to Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 18 - Parts of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 19 - Accessories of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 20 - Handling and Setting of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 21 - Measurement of Distance
Link NOC:Digital Land Surveying And Mapping Lecture 22 - Measurement of Distance Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 23 - Measurement of Horizontal Angle Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 24 - Measurement of Vertical Angle and Height Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 25 - Errors in Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 26 - Other Errors in Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 27 - Errors and Quality of Surveying Measurements
Link NOC:Digital Land Surveying And Mapping Lecture 28 - Error Propagation and Survey Specifications
Link NOC:Digital Land Surveying And Mapping Lecture 29 - Basics of Vertical Representation
Link NOC:Digital Land Surveying And Mapping Lecture 30 - Contouring
Link NOC:Digital Land Surveying And Mapping Lecture 31 - Mapping Fundamentals
Link NOC:Digital Land Surveying And Mapping Lecture 32 - Mapping Basics
Link NOC:Digital Land Surveying And Mapping Lecture 33 - Mapping Software
Link NOC:Digital Land Surveying And Mapping Lecture 34 - Automated Mapping
Link NOC:Digital Land Surveying And Mapping Lecture 35 - Working Steps
Link NOC:Digital Land Surveying And Mapping Lecture 36 - Establishment of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 37 - Detailing of Digital Land Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 38 - Demonstration of Digital Land Survey Detailing
Link NOC:Digital Land Surveying And Mapping Lecture 39 - Data Preparation and Map Making
Link NOC:Digital Land Surveying And Mapping Lecture 40 - Overview of the Course
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 1 - Remote-sensing Image and How it is represented
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 2 - Different Techniques of Image Acquisition
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 3 - Why is Digital Image processing Important ?
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 4 - Image characteristics and Different Resolutions in Remote Sensing
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 5 - Electromagnetic spectrum, solar reflection, and thermal emission
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 6 - Color Representation and Transformations
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 7 - Image histograms and statistics
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 8 - Geo-referencing Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 9 - Image Enhancement Techniques part 1
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 10 - Image Enhancement Techniques part 2
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 11 - Multispectral Transform, Scatter Plot, Principal Component Analysis and Decorrelation Stretch
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 12 - Spatial Filtering Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 13 - Frequency Domain Fourier Transformation
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 14 - Basic Image Compression Techniques and Different Image File Formats
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 15 - Image Classification Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 16 - Principles of Image Interpretation
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 17 - SAR Interferometry (InSAR) Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 18 - Image Merging and Image Mosaicing Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 19 - Application of Image Analysis
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 20 - Limitations and Future of Digital Image Processing
Link NOC:Applied Environmental Microbiology Lecture 1 - Introduction - I
Link NOC:Applied Environmental Microbiology Lecture 2 - Introduction - II
Link NOC:Applied Environmental Microbiology Lecture 3 - Cell Structure - I
Link NOC:Applied Environmental Microbiology Lecture 4 - Cell Structure - II
Link NOC:Applied Environmental Microbiology Lecture 5 - Central Dogma - I
Link NOC:Applied Environmental Microbiology Lecture 6 - Central Dogma - II
Link NOC:Applied Environmental Microbiology Lecture 7 - Microbial Energetics - I
Link NOC:Applied Environmental Microbiology Lecture 8 - Microbial Energetics - II
Link NOC:Applied Environmental Microbiology Lecture 9 - Microbial Energetics - III
Link NOC:Applied Environmental Microbiology Lecture 10 - Microbial Energetics - IV
Link NOC:Applied Environmental Microbiology Lecture 11 - Microbial Metabolism - I
Link NOC:Applied Environmental Microbiology Lecture 12 - Microbial Metabolism - II
Link NOC:Applied Environmental Microbiology Lecture 13 - Functional Diversity of Bacteria - I
Link NOC:Applied Environmental Microbiology Lecture 14 - Functional Diversity of Bacteria - II
Link NOC:Applied Environmental Microbiology Lecture 15 - Functional Diversity of Bacteria - III
Link NOC:Applied Environmental Microbiology Lecture 16 - Microbial Ecosystem - I
Link NOC:Applied Environmental Microbiology Lecture 17 - Microbial Ecosystem - II
Link NOC:Applied Environmental Microbiology Lecture 18 - Microbial Ecosystem - III
Link NOC:Applied Environmental Microbiology Lecture 19 - Microbial Ecosystem - IV
Link NOC:Applied Environmental Microbiology Lecture 20 - Microbial Ecosystem - V
Link NOC:Applied Environmental Microbiology Lecture 21 - Environmental Genomics - I
Link NOC:Applied Environmental Microbiology Lecture 22 - Environmental Genomics - II
Link NOC:Applied Environmental Microbiology Lecture 23 - Environmental Genomics - III
Link NOC:Applied Environmental Microbiology Lecture 24 - Environmental Genomics - IV
Link NOC:Applied Environmental Microbiology Lecture 25 - Environmental Genomics - V
Link NOC:Applied Environmental Microbiology Lecture 26 - Microbial Symbiosis - I
Link NOC:Applied Environmental Microbiology Lecture 27 - Microbial Symbiosis - II
Link NOC:Applied Environmental Microbiology Lecture 28 - Virus - I
Link NOC:Applied Environmental Microbiology Lecture 29 - Virus - II
Link NOC:Applied Environmental Microbiology Lecture 30 - Applied Environmental Microbiology
Link NOC:Applied Environmental Microbiology Lecture 31 - Techniques in Environmental Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 32 - Techniques in Environmental Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 33 - Bioremediation - I
Link NOC:Applied Environmental Microbiology Lecture 34 - Bioremediation - II
Link NOC:Applied Environmental Microbiology Lecture 35 - Bioremediation - III
Link NOC:Applied Environmental Microbiology Lecture 36 - Wastewater Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 37 - Wastewater Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 38 - Built Microbiology
Link NOC:Applied Environmental Microbiology Lecture 39 - Exposomes - I
Link NOC:Applied Environmental Microbiology Lecture 40 - Exposomes - II
Link NOC:Applied Environmental Microbiology Lecture 41 - Drinking Water Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 42 - Drinking Water Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 43 - Drinking Water Microbiology - III
Link NOC:Applied Environmental Microbiology Lecture 44 - Drinking Water Microbiology - IV
Link NOC:Applied Environmental Microbiology Lecture 45 - Drinking Water Microbiology - V
Link NOC:Applied Environmental Microbiology Lecture 46 - Solid Waste Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 47 - Solid Waste Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 48 - Solid Waste Microbiology - III
Link NOC:Applied Environmental Microbiology Lecture 49 - Antimicrobial Resistance - I
Link NOC:Applied Environmental Microbiology Lecture 50 - Antimicrobial Resistance - II
Link NOC:Applied Environmental Microbiology Lecture 51 - Epidemiology - I
Link NOC:Applied Environmental Microbiology Lecture 52 - Epidemiology - II
Link NOC:Applied Environmental Microbiology Lecture 53 - Biosensors - I
Link NOC:Applied Environmental Microbiology Lecture 54 - Biosensors - II
Link NOC:Applied Environmental Microbiology Lecture 55 - Biosensors - III
Link NOC:Applied Environmental Microbiology Lecture 56 - Bioinformatics - I
Link NOC:Applied Environmental Microbiology Lecture 57 - Bioinformatics - II
Link NOC:Applied Environmental Microbiology Lecture 58 - Bioinformatics - III
Link NOC:Applied Environmental Microbiology Lecture 59 - Bioinformatics - IV
Link NOC:Applied Environmental Microbiology Lecture 60 - Bioinformatics - V
Link NOC:Digital Elevation Models and Applications Lecture 1 - Concept of Digital Elevation Model and How It Is Represented
Link NOC:Digital Elevation Models and Applications Lecture 2 - Various Techniques to Generate Digital Elevation Model - 1
Link NOC:Digital Elevation Models and Applications Lecture 3 - Various Techniques to Generate Digital Elevation Model - 2
Link NOC:Digital Elevation Models and Applications Lecture 4 - Various Techniques to Generate Digital Elevation Model - 3
Link NOC:Digital Elevation Models and Applications Lecture 5 - Importance of Spatial Resolution With DEMs
Link NOC:Digital Elevation Models and Applications Lecture 6 - How To Assess Quality of DEM?
Link NOC:Digital Elevation Models and Applications Lecture 7 - Integration of DEMs With Satellite Data
Link NOC:Digital Elevation Models and Applications Lecture 8 - Common Derivatives of DEMs- Slope and Aspect
Link NOC:Digital Elevation Models and Applications Lecture 9 - Triangulated Irregular Network (TIN) and Its Derivatives
Link NOC:Digital Elevation Models and Applications Lecture 10 - Shaded Relief Models and Thier Applications
Link NOC:Digital Elevation Models and Applications Lecture 11 - DEMs Derivatives - 1
Link NOC:Digital Elevation Models and Applications Lecture 12 - DEMs Derivatives - 2
Link NOC:Digital Elevation Models and Applications Lecture 13 - DEMs Derivatives - 3
Link NOC:Digital Elevation Models and Applications Lecture 14 - DEMs Derivatives - 4
Link NOC:Digital Elevation Models and Applications Lecture 15 - DEM Based Surface Hydrologic Modelling - 1
Link NOC:Digital Elevation Models and Applications Lecture 16 - DEM Based Surface Hydrologic Modelling - 2
Link NOC:Digital Elevation Models and Applications Lecture 17 - DEM and DAM Simulation and Its Application In Ground Water Hydrology
Link NOC:Digital Elevation Models and Applications Lecture 18 - Applications of DEMs In Solar and Wind Energy Potential Estimations
Link NOC:Digital Elevation Models and Applications Lecture 19 - Applications of DEMs in Viewshed and Flood Hazard Mapping
Link NOC:Digital Elevation Models and Applications Lecture 20 - DEMs Sources, Limitations and Future of Digital Elevation Models
Link NOC:Environmental Engineering-Chemical Processes Lecture 1 - Introduction, Fundamentals of Equilibrium and Kinetics
Link NOC:Environmental Engineering-Chemical Processes Lecture 2 - Equilibrium-Process Feasibility, Gibbs Energy-Standard Condition
Link NOC:Environmental Engineering-Chemical Processes Lecture 3 - Gibbs Free Energy-Non Standard Conditions - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 4 - Gibbs Free Energy-Non Standard Conditions - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 5 - Phase Equilibrium
Link NOC:Environmental Engineering-Chemical Processes Lecture 6 - Component Balance
Link NOC:Environmental Engineering-Chemical Processes Lecture 7 - Reaction Kinetics
Link NOC:Environmental Engineering-Chemical Processes Lecture 8 - Rate of Reaction - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 9 - Rate of Reaction - II, Types of Reactors
Link NOC:Environmental Engineering-Chemical Processes Lecture 10 - Mass Balance on different types of Reactors
Link NOC:Environmental Engineering-Chemical Processes Lecture 11 - Material Balance for Complex Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 12 - Material Balance for Reversible Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 13 - Determination of Kinetic Equations
Link NOC:Environmental Engineering-Chemical Processes Lecture 14 - Acid-Base Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 15 - Acid Dissociation Constant, Strength of Acid
Link NOC:Environmental Engineering-Chemical Processes Lecture 16 - Ionization Fractions
Link NOC:Environmental Engineering-Chemical Processes Lecture 17 - Introduction to VMINTEQ
Link NOC:Environmental Engineering-Chemical Processes Lecture 18 - Estimation of pH using VMINTEQ
Link NOC:Environmental Engineering-Chemical Processes Lecture 19 - Mixing Problems
Link NOC:Environmental Engineering-Chemical Processes Lecture 20 - Inverse Dose Problems
Link NOC:Environmental Engineering-Chemical Processes Lecture 21 - logC-pH Diagram
Link NOC:Environmental Engineering-Chemical Processes Lecture 22 - Carbonate System: Closed System
Link NOC:Environmental Engineering-Chemical Processes Lecture 23 - Carbonate System: Open System
Link NOC:Environmental Engineering-Chemical Processes Lecture 24 - VMINTEQ: Application of Gases, Acid-Base Titration
Link NOC:Environmental Engineering-Chemical Processes Lecture 25 - VMINTEQ: Titration and Multisweeep, Buffer: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 26 - VMINTEQ: Buffer System, Buffer Intensity: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 27 - Buffer Intensity: Monoprotic and Diprotic Acids
Link NOC:Environmental Engineering-Chemical Processes Lecture 28 - Alkalinity: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 29 - Alkalinity: Theoretical and Practical Definition
Link NOC:Environmental Engineering-Chemical Processes Lecture 30 - Acidity and its Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 31 - Alkalinity and Acidity: Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 32 - Mixing of Two Solutions and Conservative Quantities - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 33 - Mixing of Two Solutions and Conservative Quantities - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 34 - Carbonate and Non-Carbonate Alkalinity
Link NOC:Environmental Engineering-Chemical Processes Lecture 35 - Anaerobic Digester: Acid Formation and Neutralization
Link NOC:Environmental Engineering-Chemical Processes Lecture 36 - Aqueous Complexes: Applications in Toxicity Reduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 37 - Aqueous Complexes: Solubility, Rate Constants and Strength of Ligands
Link NOC:Environmental Engineering-Chemical Processes Lecture 38 - Aqueous Complexes of Aluminium (Al)
Link NOC:Environmental Engineering-Chemical Processes Lecture 39 - Aqueous Complexes of Mercury (Hg)
Link NOC:Environmental Engineering-Chemical Processes Lecture 40 - Precipitation and Dissolution: Introduction and Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 41 - Applications of Precipitation and Dissolution
Link NOC:Environmental Engineering-Chemical Processes Lecture 42 - Different Stages in Precipitation, Equilibrium of Precipitation - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 43 - Equilibrium of Precipitation - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 44 - Examples Related to Equilibrium of Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 45 - Other Examples of Equilibrium of Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 46 - Solubility and Competitive Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 47 - Predominance Area Diagram and Introduction to Redox Processes
Link NOC:Environmental Engineering-Chemical Processes Lecture 48 - Redox Reactions and its Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 49 - Balancing of Redox and Development of Half Reaction
Link NOC:Environmental Engineering-Chemical Processes Lecture 50 - Kinetics of Redox Processes
Link NOC:Environmental Engineering-Chemical Processes Lecture 51 - Equilibrium of Redox - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 52 - Equilibrium of Redox - II and Reaction Feasibility
Link NOC:Environmental Engineering-Chemical Processes Lecture 53 - Reaction Feasibility Based on Pe - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 54 - Reaction Feasibility Based on Pe - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 55 - Effect of Complexation on Redox
Link NOC:Environmental Engineering-Chemical Processes Lecture 56 - Effect of Complexation and Solid Phase on Redox
Link NOC:Environmental Engineering-Chemical Processes Lecture 57 - Reaction Feasibility based on Eh
Link NOC:Environmental Engineering-Chemical Processes Lecture 58 - Introduction to Electrochemical cell (Ecell)
Link NOC:Environmental Engineering-Chemical Processes Lecture 59 - Applications of Ecell
Link NOC:Environmental Engineering-Chemical Processes Lecture 60 - logC-Pe and pH-Pe Diagram
Link NOC:Environmental Remediation of Contaminated Sites Lecture 1 - Introduction - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 2 - Introduction - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 3 - Course Outline
Link NOC:Environmental Remediation of Contaminated Sites Lecture 4 - Introduction to hazardous waste laws and risk assessment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 5 - The major aspects of Risk Assessment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 6 - Risk Characterization
Link NOC:Environmental Remediation of Contaminated Sites Lecture 7 - Risk Assessment-Deterministic approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 8 - Risk Assessment-Stochastic Approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 9 - Hazardous Waste laws - The TCLP Test
Link NOC:Environmental Remediation of Contaminated Sites Lecture 10 - Hazardous rules and regulations
Link NOC:Environmental Remediation of Contaminated Sites Lecture 11 - Remediation of contaminated GW-Plume Containment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 12 - Remediation of contaminated GW-Javendel et al’s approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 13 - Remediation of contaminated GW by Pump and Treat - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 14 - Remediation of contaminated GW by Pump and Treat - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 15 - Remediation of contaminated GW- Calculation of remediation time and introduction to source control
Link NOC:Environmental Remediation of Contaminated Sites Lecture 16 - Permeable Reactive Barriers - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 17 - Permeable Reactive Barriers - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 18 - Permeable Reactive Barriers - III
Link NOC:Environmental Remediation of Contaminated Sites Lecture 19 - Design of Permeable Reactive Barriers
Link NOC:Environmental Remediation of Contaminated Sites Lecture 20 - Case Study on Permeable Reactive Barriers - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 21 - Case Study on Permeable Reactive Barriers - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 22 - Case Study - PRB (Utah)
Link NOC:Environmental Remediation of Contaminated Sites Lecture 23 - Case Study (Utah) (Continued...)
Link NOC:Environmental Remediation of Contaminated Sites Lecture 24 - Introduction to natural attenuation and its types
Link NOC:Environmental Remediation of Contaminated Sites Lecture 25 - Mechanism of natural attenuation and the affecting factors
Link NOC:Environmental Remediation of Contaminated Sites Lecture 26 - Pathways of Contaminant Transport and Rate of Degradation of Contaminant
Link NOC:Environmental Remediation of Contaminated Sites Lecture 27 - Rate of Degradation of Contaminant when advection is considered
Link NOC:Environmental Remediation of Contaminated Sites Lecture 28 - Rate of Degradation of Contaminant when both diffusion and advection are considered
Link NOC:Environmental Remediation of Contaminated Sites Lecture 29 - Example of Rate of Degradation in natural attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 30 - Case study: Natural Attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 31 - Results of Case Study: Natural Attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 32 - Introduction of Soil/Sediments contamination with some examples
Link NOC:Environmental Remediation of Contaminated Sites Lecture 33 - Case Study: Soil/Sediments Contamination and remediation by Excavation and Disposal
Link NOC:Environmental Remediation of Contaminated Sites Lecture 34 - Hazardous waste disposal site/TSDF
Link NOC:Environmental Remediation of Contaminated Sites Lecture 35 - Different type of fluxes through containment barrier
Link NOC:Environmental Remediation of Contaminated Sites Lecture 36 - Introduction to Solidification and Stabilisation and Case Study
Link NOC:Environmental Remediation of Contaminated Sites Lecture 37 - Different contaminant reactions during solidification and stabilisation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 38 - Diffusion of contaminant through solidified form
Link NOC:Environmental Remediation of Contaminated Sites Lecture 39 - Calculations for fractions of binders, admixtures, waste and water used in solidification
Link NOC:Environmental Remediation of Contaminated Sites Lecture 40 - Discussion of TCLP approach in solidification and its examples
Link NOC:Environmental Remediation of Contaminated Sites Lecture 41 - Discussion of TCLP approach (Continued...) and Cost estimation of Solidification
Link NOC:Environmental Remediation of Contaminated Sites Lecture 42 - Case Study: Solidification and Stabilization
Link NOC:Environmental Remediation of Contaminated Sites Lecture 43 - Chemical Treatment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 44 - Case Study: In-Situ Chemical Oxidation - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 45 - Case Study: In-Situ Chemical Oxidation - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 46 - Case Study: In-Situ Chemical Oxidation - Part III
Link NOC:Environmental Remediation of Contaminated Sites Lecture 47 - Surfactant Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 48 - Surfactant Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 49 - Case Study: Surfactant Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 50 - Case Study: Surfactant Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 51 - Soil Vapor Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 52 - Soil Vapor Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 53 - Bioremediation - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 54 - Bioremediation - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 55 - Case Study: Bioremediation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 56 - Case Study: Soil Vapor Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 57 - Case Study: Soil Vapor Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 58 - Phyto-remediation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 59 - Thermal Processes and Soil Washing
Link NOC:Global Navigation Satellite Systems and Applications Lecture 1 - Introduction to Global Navigation Satellite System (GNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 2 - How position is determined by the GNSS? - Part I
Link NOC:Global Navigation Satellite Systems and Applications Lecture 3 - How position is determined by the GNSS? - Part II
Link NOC:Global Navigation Satellite Systems and Applications Lecture 4 - How position is determined by the GNSS? - Part III
Link NOC:Global Navigation Satellite Systems and Applications Lecture 5 - NAVSTAR - Global Positioning System
Link NOC:Global Navigation Satellite Systems and Applications Lecture 6 - Global Navigation Satellite System (GLONASS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 7 - BeiDou Navigation Satellite System (BDS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 8 - Indian Regional Navigation Satellite System (IRNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 9 - GALILEO
Link NOC:Global Navigation Satellite Systems and Applications Lecture 10 - Quasi-Zenith Satellite System (QZSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 11 - Differential Global Navigation Satellite System (DGNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 12 - Real-Time Kinematic (RTK)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 13 - Satellite Based Augmentation System (SBAS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 14 - GNSS Errors
Link NOC:Global Navigation Satellite Systems and Applications Lecture 15 - GNSS Correction Methods
Link NOC:Global Navigation Satellite Systems and Applications Lecture 16 - Why altitude estimated by GNSS receivers is not very accurate
Link NOC:Global Navigation Satellite Systems and Applications Lecture 17 - Global Navigation Satellite Systems (GNSS) Applications - I
Link NOC:Global Navigation Satellite Systems and Applications Lecture 18 - Global Navigation Satellite Systems (GNSS) Applications - II
Link NOC:Global Navigation Satellite Systems and Applications Lecture 19 - GNSS: Current Trends and Future
Link NOC:Global Navigation Satellite Systems and Applications Lecture 20 - GNSS: Opportunities in India
Link NOC:Geomorphology Lecture 1 - Introduction to Geomorphology and Concept of Time Scale in a Geomorphic System
Link NOC:Geomorphology Lecture 2 - Process of Landform Development
Link NOC:Geomorphology Lecture 3 - Energy Flow in Geomorphic System and Role of Uniformitarianism Vs Catastrophism
Link NOC:Geomorphology Lecture 4 - Landform Development - Equilibrium and Evolution
Link NOC:Geomorphology Lecture 5 - Process Geomorphology - I
Link NOC:Geomorphology Lecture 6 - Process Geomorphology - II
Link NOC:Geomorphology Lecture 7 - Weathering and soil Formation Introduction - I
Link NOC:Geomorphology Lecture 8 - Weathering and soil Formation Introduction - II
Link NOC:Geomorphology Lecture 9 - Weathering and Soil Formation (Types of Weathering)
Link NOC:Geomorphology Lecture 10 - Weathering and Soil Formation (Mechanical Weathering)
Link NOC:Geomorphology Lecture 11 - Weathering and Soil Formation (Mechanical and Chemical Weathering)
Link NOC:Geomorphology Lecture 12 - Weathering and Soil Formation (Chemical and Biological Weathering)
Link NOC:Geomorphology Lecture 13 - Weathering of Silicate rocks and Weathering Products
Link NOC:Geomorphology Lecture 14 - Factors of Weathering
Link NOC:Geomorphology Lecture 15 - Soil Formation
Link NOC:Geomorphology Lecture 16 - Soil Formation Processes
Link NOC:Geomorphology Lecture 17 - Soil Classification
Link NOC:Geomorphology Lecture 18 - Mass Wasting
Link NOC:Geomorphology Lecture 19 - Classification of Mass Wasting - I
Link NOC:Geomorphology Lecture 20 - Classification of Mass Wasting - II
Link NOC:Geomorphology Lecture 21 - Hill Slope Evolution - I
Link NOC:Geomorphology Lecture 22 - Hill Slope Evolution - II
Link NOC:Geomorphology Lecture 23 - Arid Zone Geomorphology
Link NOC:Geomorphology Lecture 24 - Landforms in Dry Region
Link NOC:Geomorphology Lecture 25 - Pediment Evolution
Link NOC:Geomorphology Lecture 26 - Aeolian Processes and Landforms - I
Link NOC:Geomorphology Lecture 27 - Aeolian Processes and Landforms - II
Link NOC:Geomorphology Lecture 28 - Wind Erosional Landforms - I
Link NOC:Geomorphology Lecture 29 - Wind Erosional Landforms - II
Link NOC:Geomorphology Lecture 30 - Dune Classification - I
Link NOC:Geomorphology Lecture 31 - Dune Classification - II
Link NOC:Geomorphology Lecture 32 - Coastal Geomorphology - I
Link NOC:Geomorphology Lecture 33 - Coastal Geomorphology and Landforms
Link NOC:Geomorphology Lecture 34 - Coastal Geomorphology - II
Link NOC:Geomorphology Lecture 35 - Coastal Geomorphology - III
Link NOC:Geomorphology Lecture 36 - Shoreline Platform
Link NOC:Geomorphology Lecture 37 - Coastal Geomorphology - IV
Link NOC:Geomorphology Lecture 38 - Coastal Geomorphology - V
Link NOC:Geomorphology Lecture 39 - Coastal Geomorphology - VI
Link NOC:Geomorphology Lecture 40 - Coastal Geomorphology - VII
Link NOC:Geomorphology Lecture 41 - Coastal Geomorphology - VIII
Link NOC:Geomorphology Lecture 42 - Coastal Geomorphology - IX
Link NOC:Geomorphology Lecture 43 - Tectonic Geomorphology
Link NOC:Geomorphology Lecture 44 - Fluvial Process
Link NOC:Geomorphology Lecture 45 - Fluvial Process - I
Link NOC:Geomorphology Lecture 46 - Fluvial Process - II
Link NOC:Geomorphology Lecture 47 - Fluvial Process - III
Link NOC:Geomorphology Lecture 48 - Fluvial Process - IV
Link NOC:Geomorphology Lecture 49 - Fluvial Process - V and Drainage Analysis
Link NOC:Geomorphology Lecture 50 - Fluvial Process - VI and Drainage Analysis
Link NOC:Geomorphology Lecture 51 - Fluvial Geomorphology River System - I
Link NOC:Geomorphology Lecture 52 - Fluvial Geomorphology River System - II
Link NOC:Geomorphology Lecture 53 - Glacial Geomorphology - I
Link NOC:Geomorphology Lecture 54 - Glacial Geomorphology - II (Valley Glacier)
Link NOC:Geomorphology Lecture 55 - Glacial Geomorphology - III
Link NOC:Geomorphology Lecture 56 - Glacial Geomorphology - IV (Geomorphic Changes by Glacier)
Link NOC:Geomorphology Lecture 57 - Exploration Geomorphology in Oil field Sandbody Geometry - I
Link NOC:Geomorphology Lecture 58 - Exploration Geomorphology in Oil Field Sandbody Geometry - II
Link NOC:Geomorphology Lecture 59 - Seismic Geomorphology - I
Link NOC:Geomorphology Lecture 60 - Seismic Geomorphology - II
Link NOC:Remote Sensing Essentials Lecture 1 - Rudiments of Remote Sensing and Advantages
Link NOC:Remote Sensing Essentials Lecture 2 - Historical Perspective of development of remote sensing technology
Link NOC:Remote Sensing Essentials Lecture 3 - EM spectrum, solar reflection and thermal emission
Link NOC:Remote Sensing Essentials Lecture 4 - Interaction of EM radiation with atmosphere including atmospheric scattering, absorption and emission
Link NOC:Remote Sensing Essentials Lecture 5 - Interaction mechanisms of EM radiation with ground, spectral response curves
Link NOC:Remote Sensing Essentials Lecture 6 - Laws of Radiation and their relevance in Remote Sensing
Link NOC:Remote Sensing Essentials Lecture 7 - Basis of remote sensing image representation
Link NOC:Remote Sensing Essentials Lecture 8 - Various Remote Sensing Platforms
Link NOC:Remote Sensing Essentials Lecture 9 - Multi-spectral scanners and imaging devices
Link NOC:Remote Sensing Essentials Lecture 10 - Significant characteristics of LANDSAT, SPOT, Sentinel sensors
Link NOC:Remote Sensing Essentials Lecture 11 - Prominent characteristics of IRS, Cartosat, ResourceSat sensors
Link NOC:Remote Sensing Essentials Lecture 12 - Unmanned Aerial Vehicle/Drone
Link NOC:Remote Sensing Essentials Lecture 13 - Passive Microwave Remote Sensing
Link NOC:Remote Sensing Essentials Lecture 14 - Image characteristics and different resolutions in Remote Sensing
Link NOC:Remote Sensing Essentials Lecture 15 - Different techniques of Image acquisition
Link NOC:Remote Sensing Essentials Lecture 16 - Importance of digital image processing
Link NOC:Remote Sensing Essentials Lecture 17 - Digital Image Processing Software
Link NOC:Remote Sensing Essentials Lecture 18 - Basic image enhancement techniques
Link NOC:Remote Sensing Essentials Lecture 19 - Colour representations and transformtions
Link NOC:Remote Sensing Essentials Lecture 20 - Image Histograms and statistics
Link NOC:Remote Sensing Essentials Lecture 21 - Atmospheric errors and corrections
Link NOC:Remote Sensing Essentials Lecture 22 - Geometric transformations/Geo-referencing Technique
Link NOC:Remote Sensing Essentials Lecture 23 - Digital Image Processing Software Demonstration - 1
Link NOC:Remote Sensing Essentials Lecture 24 - Image enhancement techniques - 1
Link NOC:Remote Sensing Essentials Lecture 25 - Image enhancement techniques - 2
Link NOC:Remote Sensing Essentials Lecture 26 - Digital Image Processing Software Demonstration - 2
Link NOC:Remote Sensing Essentials Lecture 27 - Spatial Filtering Techniques, Band rationing and PCA
Link NOC:Remote Sensing Essentials Lecture 28 - Frequency Doman Fourier Transformation
Link NOC:Remote Sensing Essentials Lecture 29 - Digital Image Processing Software Demonstration - 3
Link NOC:Remote Sensing Essentials Lecture 30 - Unsupervised image classification and density slicing techniques
Link NOC:Remote Sensing Essentials Lecture 31 - Supervised image classification techniques and limitations
Link NOC:Remote Sensing Essentials Lecture 32 - Digital Image Processing Software Demonstration - 4
Link NOC:Remote Sensing Essentials Lecture 33 - LiDAR Technique and applications
Link NOC:Remote Sensing Essentials Lecture 34 - Mosaicking, subsets, sub-sampling techniques and applications
Link NOC:Remote Sensing Essentials Lecture 35 - False Topographic Phenomena and correction techniques - 1
Link NOC:Remote Sensing Essentials Lecture 36 - False Topographic Phenomena and correction techniques - 2
Link NOC:Remote Sensing Essentials Lecture 37 - High Spatial Resolution Satellite Images and limitations
Link NOC:Remote Sensing Essentials Lecture 38 - Basic Image Compression techniques and different image file formats
Link NOC:Remote Sensing Essentials Lecture 39 - Hyperspectral Remote Sensing
Link NOC:Remote Sensing Essentials Lecture 40 - Digital Image vs Digital Photograph
Link NOC:Remote Sensing Essentials Lecture 41 - NDVI and other indices
Link NOC:Remote Sensing Essentials Lecture 42 - Active Microwave Remote Sensing - 1
Link NOC:Remote Sensing Essentials Lecture 43 - Active Microwave Remote Sensing - 2
Link NOC:Remote Sensing Essentials Lecture 44 - Radar Images interpretation and applications
Link NOC:Remote Sensing Essentials Lecture 45 - SAR Interferometry (InSAR) Technique - 1
Link NOC:Remote Sensing Essentials Lecture 46 - SAR Interferometry (InSAR) Technique - 2
Link NOC:Remote Sensing Essentials Lecture 47 - Principles of image interpretation
Link NOC:Remote Sensing Essentials Lecture 48 - Image interpretation of different geological landforms, rock types and structures
Link NOC:Remote Sensing Essentials Lecture 49 - Remote Sensing of Moon and Mars
Link NOC:Remote Sensing Essentials Lecture 50 - Google Earth and its Applications
Link NOC:Remote Sensing Essentials Lecture 51 - Integrated applications of RS and GIS in groundwater studies - 1
Link NOC:Remote Sensing Essentials Lecture 52 - Integrated applications of RS and GIS in groundwater studies - 2
Link NOC:Remote Sensing Essentials Lecture 53 - Applications of Remote Sensing in Earthquake Studies - 1
Link NOC:Remote Sensing Essentials Lecture 54 - Applications of Remote Sensing in Earthquake Studies - 2
Link NOC:Remote Sensing Essentials Lecture 55 - Different sources of free satellite images
Link NOC:Remote Sensing Essentials Lecture 56 - Limitations of Remote Sensing Techniques
Link NOC:Earthquake Resistant Design of Foundations Lecture 1 - Introduction
Link NOC:Earthquake Resistant Design of Foundations Lecture 2 - Shallow Foundations: General Requirements
Link NOC:Earthquake Resistant Design of Foundations Lecture 3 - Shallow Foundations: Bearing Capacity
Link NOC:Earthquake Resistant Design of Foundations Lecture 4 - Shallow Foundations: Settlement
Link NOC:Earthquake Resistant Design of Foundations Lecture 5 - Shallow Foundations: Numerical Examples
Link NOC:Earthquake Resistant Design of Foundations Lecture 6 - Combined Footings
Link NOC:Earthquake Resistant Design of Foundations Lecture 7 - Raft Foundations: General Requirements
Link NOC:Earthquake Resistant Design of Foundations Lecture 8 - Raft Foundations: Methods of Analysis
Link NOC:Earthquake Resistant Design of Foundations Lecture 9 - Footings under Dynamic Loads: Eccentric and Inclined Loads, A New Method
Link NOC:Earthquake Resistant Design of Foundations Lecture 10 - Footings under Dynamic Loads: Design Procedure and Example on a New Method
Link NOC:Earthquake Resistant Design of Foundations Lecture 11 - Footings under Dynamic Loads: Analytical Approaches
Link NOC:Earthquake Resistant Design of Foundations Lecture 12 - Footings under Dynamic Loads: Numerical on Analytical Approaches
Link NOC:Earthquake Resistant Design of Foundations Lecture 13 - Pile Foundations subjected to Static Vertical Load
Link NOC:Earthquake Resistant Design of Foundations Lecture 14 - Pile Foundations: Group Action of Piles and Numerical
Link NOC:Earthquake Resistant Design of Foundations Lecture 15 - Pile Foundations under Lateral Loads: Conventional and Elastic Methods
Link NOC:Earthquake Resistant Design of Foundations Lecture 16 - Pile Foundations under Lateral Loads: Elastic Method for Cohesionless Soils
Link NOC:Earthquake Resistant Design of Foundations Lecture 17 - Pile Foundations under Lateral Loads: Elastic Method for Cohesive Soils including degradation of modulus of subgrade reaction (k)
Link NOC:Earthquake Resistant Design of Foundations Lecture 18 - Pile Foundations under Lateral Loads: Numerical Examples
Link NOC:Earthquake Resistant Design of Foundations Lecture 19 - Dynamic Analysis of Piles under Vertical and Horizontal Vibrations
Link NOC:Earthquake Resistant Design of Foundations Lecture 20 - Dynamic Analysis of Piles under Horizontal Vibration: Continue with Numerical Example
Link NOC:Earthquake Resistant Design of Foundations Lecture 21 - Seismic Response of Pile Foundations - 1
Link NOC:Earthquake Resistant Design of Foundations Lecture 22 - Seismic Response of Pile Foundations - 2
Link NOC:Earthquake Resistant Design of Foundations Lecture 23 - Combined Pile-Raft Foundations (CPRF) - General
Link NOC:Earthquake Resistant Design of Foundations Lecture 24 - Geotechnical and Seismic Analyses of CPRF
Link NOC:Earthquake Resistant Design of Foundations Lecture 25 - Design of Piles in Liquefiable Soils - 1
Link NOC:Earthquake Resistant Design of Foundations Lecture 26 - Design of Piles in Liquefiable Soils - 2
Link NOC:Earthquake Resistant Design of Foundations Lecture 27 - Introduction to Well Foundations
Link NOC:Earthquake Resistant Design of Foundations Lecture 28 - Lateral Stability of Well Foundations
Link NOC:Earthquake Resistant Design of Foundations Lecture 29 - Lateral Stability, Construction and Sinking of Well Foundation
Link NOC:Earthquake Resistant Design of Foundations Lecture 30 - Titling and Shifting of Wells, Numerical Problems
Link NOC:Earthquake Resistant Design of Foundations Lecture 31 - Introduction to Soil-Structure Interaction
Link NOC:Earthquake Resistant Design of Foundations Lecture 32 - Effects of Soil-Structure Interaction
Link NOC:Earthquake Resistant Design of Foundations Lecture 33 - SGM and Wave Propagation
Link NOC:Earthquake Resistant Design of Foundations Lecture 34 - Dispersion, Attenuation of Waves and Damping
Link NOC:Earthquake Resistant Design of Foundations Lecture 35 - Ground Response Analysis (GRA)
Link NOC:Earthquake Resistant Design of Foundations Lecture 36 - Soil-Pile Interaction (SPI)
Link NOC:Earthquake Resistant Design of Foundations Lecture 37 - Raft Foundations – Numerical Examples
Link NOC:Earthquake Resistant Design of Foundations Lecture 38 - Foundations on Slopes - 1
Link NOC:Earthquake Resistant Design of Foundations Lecture 39 - Foundations on Slopes - 2
Link NOC:Earthquake Resistant Design of Foundations Lecture 40 - Codal Provisions
Link NOC:Geographic Information Systems Lecture 1 - What is Geographic Information Systems ?
Link NOC:Geographic Information Systems Lecture 2 - Essential Components of GIS
Link NOC:Geographic Information Systems Lecture 3 - Different types of vector data
Link NOC:Geographic Information Systems Lecture 4 - Concept of topology
Link NOC:Geographic Information Systems Lecture 5 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 6 - Raster data model and comparisons with vector
Link NOC:Geographic Information Systems Lecture 7 - TIN data model and comparisons with raster
Link NOC:Geographic Information Systems Lecture 8 - Non-spatial data (attributes) and their types
Link NOC:Geographic Information Systems Lecture 9 - Vector data compression techniques
Link NOC:Geographic Information Systems Lecture 10 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 11 - Raster data compression techniques - 1
Link NOC:Geographic Information Systems Lecture 12 - Raster data compression techniques - 2
Link NOC:Geographic Information Systems Lecture 13 - Georeferencing
Link NOC:Geographic Information Systems Lecture 14 - Pre-processing of spatial datasets - 1
Link NOC:Geographic Information Systems Lecture 15 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 16 - Pre-processing of spatial datasets - 2
Link NOC:Geographic Information Systems Lecture 17 - Pre-processing of spatial datasets - 3
Link NOC:Geographic Information Systems Lecture 18 - Spatial Interpolation Techniques - 1
Link NOC:Geographic Information Systems Lecture 19 - Spatial Interpolation Techniques - 2
Link NOC:Geographic Information Systems Lecture 20 - GIS ANALYSIS - 1
Link NOC:Geographic Information Systems Lecture 21 - GIS Analysis - 2
Link NOC:Geographic Information Systems Lecture 22 - GIS Analysis - 3
Link NOC:Geographic Information Systems Lecture 23 - GIS Analysis - 4
Link NOC:Geographic Information Systems Lecture 24 - GIS Analysis - 5
Link NOC:Geographic Information Systems Lecture 25 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 26 - GIS Analysis - 6
Link NOC:Geographic Information Systems Lecture 27 - GIS Analysis - 7
Link NOC:Geographic Information Systems Lecture 28 - Attributes Classification Methods
Link NOC:Geographic Information Systems Lecture 29 - Special database systems and their types - 1
Link NOC:Geographic Information Systems Lecture 30 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 31 - Spatial database systems and their types - 2
Link NOC:Geographic Information Systems Lecture 32 - Concept of NoData in Raster
Link NOC:Geographic Information Systems Lecture 33 - Different map projections
Link NOC:Geographic Information Systems Lecture 34 - Concept of digital elevation model (DEM) and how it is represented
Link NOC:Geographic Information Systems Lecture 35 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 36 - Various techniques to generate digital elevation model - 1
Link NOC:Geographic Information Systems Lecture 37 - Various techniques to generate digital elevation model - 2
Link NOC:Geographic Information Systems Lecture 38 - Various techniques to generate digital elevation model - 3
Link NOC:Geographic Information Systems Lecture 39 - Digital Elevation Models and different types of resolutions
Link NOC:Geographic Information Systems Lecture 40 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 41 - How to assess quality of a DEM?
Link NOC:Geographic Information Systems Lecture 42 - Integration of DEMs with satellite data
Link NOC:Geographic Information Systems Lecture 43 - Demonstration through GIS software...
Link NOC:Geographic Information Systems Lecture 44 - Common derivatives of DEMs - Slope and aspect - 1
Link NOC:Geographic Information Systems Lecture 45 - Common derivatives of DEMs - Slope and aspect - 2
Link NOC:Geographic Information Systems Lecture 46 - Common derivatives of DEMs - Slope and aspect - 3
Link NOC:Geographic Information Systems Lecture 47 - Demonstration through GIS software
Link NOC:Geographic Information Systems Lecture 48 - DEMs derivatives - 1
Link NOC:Geographic Information Systems Lecture 49 - DEMs derivatives - 2
Link NOC:Geographic Information Systems Lecture 50 - DEMs derivatives - 3
Link NOC:Geographic Information Systems Lecture 51 - DEMs derivatives - 4
Link NOC:Geographic Information Systems Lecture 52 - Shaded relief models and their applications
Link NOC:Geographic Information Systems Lecture 53 - DEM based Surface Hydrologic Modelling - 1
Link NOC:Geographic Information Systems Lecture 54 - DEM based Surface Hydrologic Modelling - 2
Link NOC:Geographic Information Systems Lecture 55 - DEMs and Dam Simulation and its application in groundwater hydrology
Link NOC:Geographic Information Systems Lecture 56 - Applications of DEMs in Viewshed and Flood Hazard Mapping
Link NOC:Geographic Information Systems Lecture 57 - Applications of DEMs in solar and wind energy potential estimations
Link NOC:Geographic Information Systems Lecture 58 - DEMs Sources, limitations and future of Digital Elevation Models
Link NOC:Geographic Information Systems Lecture 59 - Errors in GIS and key elements of maps
Link NOC:Geographic Information Systems Lecture 60 - Limitations of GIS
Link NOC:Water and Waste Water Treatment Lecture 1 - Importance of water and wastewater treatment
Link NOC:Water and Waste Water Treatment Lecture 2 - Life expectancy and real-world scenario
Link NOC:Water and Waste Water Treatment Lecture 3 - Course outline
Link NOC:Water and Waste Water Treatment Lecture 4 - Review of fundamentals
Link NOC:Water and Waste Water Treatment Lecture 5 - Mass balance
Link NOC:Water and Waste Water Treatment Lecture 6 - Mass Balance: Batch reactor, CSTR, and Plug flow reactors
Link NOC:Water and Waste Water Treatment Lecture 7 - Mass balance: Comparison of CSTR and Plug flow reactor
Link NOC:Water and Waste Water Treatment Lecture 8 - Mass Balance: Non ideal system and Water quality parameters
Link NOC:Water and Waste Water Treatment Lecture 9 - Water quality: DO and ways to measure it
Link NOC:Water and Waste Water Treatment Lecture 10 - Water quality: Nutrients in water
Link NOC:Water and Waste Water Treatment Lecture 11 - Water quality: Total suspended solids and Pathogens
Link NOC:Water and Waste Water Treatment Lecture 12 - Wastewater treatment plant: basic principals
Link NOC:Water and Waste Water Treatment Lecture 13 - Wastewater treatment plant: Preliminary treatment
Link NOC:Water and Waste Water Treatment Lecture 14 - Wastewater treatment plant: Sedimentation and basics
Link NOC:Water and Waste Water Treatment Lecture 15 - Sedimentation: Discrete and Flocculant settling
Link NOC:Water and Waste Water Treatment Lecture 16 - Design of primary settling tank
Link NOC:Water and Waste Water Treatment Lecture 17 - Biological treatment: BOD and Nutrient removal
Link NOC:Water and Waste Water Treatment Lecture 18 - Analysis of biological removal process(ASP)
Link NOC:Water and Waste Water Treatment Lecture 19 - Activated sludge process: Material balance for aeration basin
Link NOC:Water and Waste Water Treatment Lecture 20 - Oxygen transfer: types and basic principals
Link NOC:Water and Waste Water Treatment Lecture 21 - Relevance of F/M ratio and Design Parameters of Activated Sludge Process
Link NOC:Water and Waste Water Treatment Lecture 22 - Sludge Bulking and Activated Sludge Variations
Link NOC:Water and Waste Water Treatment Lecture 23 - Sequencing Batch Reactor
Link NOC:Water and Waste Water Treatment Lecture 24 - Nitrogen Removal - I
Link NOC:Water and Waste Water Treatment Lecture 25 - Nitrogen Removal - II and Phosphorus Removal - I
Link NOC:Water and Waste Water Treatment Lecture 26 - Phosphorus Removal - II
Link NOC:Water and Waste Water Treatment Lecture 27 - Secondary Clarifiers and Attached Growth System
Link NOC:Water and Waste Water Treatment Lecture 28 - Disinfection
Link NOC:Water and Waste Water Treatment Lecture 29 - Chlorination Disinfection
Link NOC:Water and Waste Water Treatment Lecture 30 - Disinfection By-products (DBPs) and Disinfectant Removal
Link NOC:Water and Waste Water Treatment Lecture 31 - Water demand
Link NOC:Water and Waste Water Treatment Lecture 32 - Water Quality Parameters
Link NOC:Water and Waste Water Treatment Lecture 33 - Overview of Water Treatment
Link NOC:Water and Waste Water Treatment Lecture 34 - Physico-Chemical treatment
Link NOC:Water and Waste Water Treatment Lecture 35 - Coagulation - I
Link NOC:Water and Waste Water Treatment Lecture 36 - Coagulation - II
Link NOC:Water and Waste Water Treatment Lecture 37 - Rapid Mixing
Link NOC:Water and Waste Water Treatment Lecture 38 - Flocculation - I
Link NOC:Water and Waste Water Treatment Lecture 39 - Flocculation - II
Link NOC:Water and Waste Water Treatment Lecture 40 - Flocculent settling
Link NOC:Water and Waste Water Treatment Lecture 41 - Filtration
Link NOC:Water and Waste Water Treatment Lecture 42 - Depth filtration
Link NOC:Water and Waste Water Treatment Lecture 43 - Design of Sand filter and Surface filtration
Link NOC:Water and Waste Water Treatment Lecture 44 - Disinfection
Link NOC:Water and Waste Water Treatment Lecture 45 - Hardness - I
Link NOC:Water and Waste Water Treatment Lecture 46 - Hardness - II
Link NOC:Water and Waste Water Treatment Lecture 47 - Lime-Soda softening - I
Link NOC:Water and Waste Water Treatment Lecture 48 - Lime-Soda softening - II
Link NOC:Water and Waste Water Treatment Lecture 49 - Recarbonation
Link NOC:Water and Waste Water Treatment Lecture 50 - Types of Softening Basin and Adsorption
Link NOC:Water and Waste Water Treatment Lecture 51 - Adsorption
Link NOC:Water and Waste Water Treatment Lecture 52 - Adsorption Isotherms
Link NOC:Water and Waste Water Treatment Lecture 53 - Ion Exchange
Link NOC:Water and Waste Water Treatment Lecture 54 - Nanofiltration and RO
Link NOC:Water and Waste Water Treatment Lecture 55 - Aeration: Removal of Fe and Mn
Link NOC:Water and Waste Water Treatment Lecture 56 - Residual Management
Link NOC:Water and Waste Water Treatment Lecture 57 - Sludge Thickening
Link NOC:Water and Waste Water Treatment Lecture 58 - Stabilization of Sludge
Link NOC:Water and Waste Water Treatment Lecture 59 - Anaerobic and Aerobic digestion of sludge
Link NOC:Water and Waste Water Treatment Lecture 60 - Conditioning, Dewatering and Disposal of Sludge
Link NOC:Rock Engineering Lecture 1 - Introduction
Link NOC:Rock Engineering Lecture 2 - Minerals and Rock Classes
Link NOC:Rock Engineering Lecture 3 - Mineral Identification Procedure
Link NOC:Rock Engineering Lecture 4 - Rock Identification Procedure
Link NOC:Rock Engineering Lecture 5 - Geological Structures and Discontinuities
Link NOC:Rock Engineering Lecture 6 - Spherical Representation of Geological Data - 1
Link NOC:Rock Engineering Lecture 7 - Spherical Representation of Geological Data - 2
Link NOC:Rock Engineering Lecture 8 - Spherical Representation of Geological Data - 3
Link NOC:Rock Engineering Lecture 9 - Application of Graphical Representation of Geological Data
Link NOC:Rock Engineering Lecture 10 - Laboratory Testing of Rocks - Sampling
Link NOC:Rock Engineering Lecture 11 - Laboratory testing of Rocks - Preperations and UCS
Link NOC:Rock Engineering Lecture 12 - Factors Influencing UCS and Modes of Failure in Compression
Link NOC:Rock Engineering Lecture 13 - Failure Mechanism and Post-Failure Behaviour in Compression, Indirect Method for UCS
Link NOC:Rock Engineering Lecture 14 - Indirect Method for UCS, Brazilian Test, Schnidt Rebound Hardness Test
Link NOC:Rock Engineering Lecture 15 - Sound Velocity Test, Slake Durability Test, Swelling Pressure and Free Swell Test and Void Index Test
Link NOC:Rock Engineering Lecture 16 - Shear Tests - 1
Link NOC:Rock Engineering Lecture 17 - Shear Tests - 2
Link NOC:Rock Engineering Lecture 18 - Engineering Classification of Intact Rocks, Concept of Rock Mass, RQD
Link NOC:Rock Engineering Lecture 19 - Concept of Rock Mass, Factors Affecting Discontinuities
Link NOC:Rock Engineering Lecture 20 - Factors Affecting Discontinuities
Link NOC:Rock Engineering Lecture 21 - Classification of Rock Mass: Rock Mass Rating (RMR) - 1
Link NOC:Rock Engineering Lecture 22 - Classification of Rock Mass: Rock Mass Rating (RMR) - 2
Link NOC:Rock Engineering Lecture 23 - Classification of Rock Mass: Rock Mass Quality (Q-system) - 1
Link NOC:Rock Engineering Lecture 24 - Classification of Rock Mass: Rock Mass Quality (Q-system) - 2
Link NOC:Rock Engineering Lecture 25 - Classification of Rock Mass: Geological Strength Index (GSI)
Link NOC:Rock Engineering Lecture 26 - Strength Criteria for Isotropic and Anisotropic Rock - 1
Link NOC:Rock Engineering Lecture 27 - Strength Criteria for Isotropic and Anisotropic Rocks -2, Mohr’s Failure Theory
Link NOC:Rock Engineering Lecture 28 - Mohr-Coulomb Failure Criterion
Link NOC:Rock Engineering Lecture 29 - Mohr-Coulomb Failure Criterion, Coulomb Navier Failure Criterion
Link NOC:Rock Engineering Lecture 30 - Concept of Instantaneous c and φ: Balmer Approach
Link NOC:Rock Engineering Lecture 31 - Empirical Failure Criteria: Basics of Regression Analysis
Link NOC:Rock Engineering Lecture 32 - Hoek and Brown Criterion (1980)
Link NOC:Rock Engineering Lecture 33 - Parameters of Failure Criteria
Link NOC:Rock Engineering Lecture 34 - Failure Criteria for Rock Mass
Link NOC:Rock Engineering Lecture 35 - Tunneling: Underground Excavations
Link NOC:Rock Engineering Lecture 36 - Tunneling: Ground Conditions
Link NOC:Rock Engineering Lecture 37 - Elastic Stress Distribution Around Circular Tunnels - 1
Link NOC:Rock Engineering Lecture 38 - Elastic Stress Distribution Around Circular Tunnels - 2
Link NOC:Rock Engineering Lecture 39 - Elastic Analysis of Circular Tunnels - Displacements
Link NOC:Rock Engineering Lecture 40 - Thick Wall Cylinder in Biaxial Stress Field
Link NOC:Rock Engineering Lecture 41 - Elasto-Plastic Stress Distribution Around Circular Tunnel
Link NOC:Rock Engineering Lecture 42 - Underground Excavation Failure Mechanisms
Link NOC:Rock Engineering Lecture 43 - Structurally Controlled Failure: Roof Failure
Link NOC:Rock Engineering Lecture 44 - Structurally Controlled Failure: Sidewall Failures - 1
Link NOC:Rock Engineering Lecture 45 - Structurally Controlled Failure: Sidewall Failures - 2
Link NOC:Rock Engineering Lecture 46 - Rock Mass Support Interaction Analysis - 1
Link NOC:Rock Engineering Lecture 47 - Rock Mass Support Interaction Analysis - 2
Link NOC:Rock Engineering Lecture 48 - Rock Slope Stability
Link NOC:Rock Engineering Lecture 49 - Rock Slope Stability - Plane Failure
Link NOC:Rock Engineering Lecture 50 - Rock Slope Stability - Wedge Failure
Link NOC:Rock Engineering Lecture 51 - Rock Slope Stability - Circular Failure
Link NOC:Rock Engineering Lecture 52 - Rock Slope Stability - Toppling Failure - 1
Link NOC:Rock Engineering Lecture 53 - Rock Slope Stability - Toppling Failure - 2
Link NOC:Rock Engineering Lecture 54 - Rock Slope Stability - Toppling Failure - 3
Link NOC:Rock Engineering Lecture 55 - Rock Slope Stabilization
Link NOC:Rock Engineering Lecture 56 - Foundations on Weak Rocks
Link NOC:Rock Engineering Lecture 57 - Ultimate Bearing Capacity Using Bell’s Approach
Link NOC:Rock Engineering Lecture 58 - Bearing Capacity from Classification Approaches and Based on UCS
Link NOC:Rock Engineering Lecture 59 - Bearing Capacity Based on Plate Load test; Treatment of Foundations
Link NOC:Rock Engineering Lecture 60 - Dam Foundation Problems
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 1 - Introduction to Scientific Computations - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 2 - Introduction to Scientific Computations - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 3 - Basic Concepts of Linear Algebra
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 4 - Polynomial Interpolation and Numerical Quadrature - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 5 - Polynomial Interpolation and Numerical Quadrature - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 6 - Polynomial Interpolation and Numerical Quadrature - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 7 - Polynomial Interpolation and Numerical Quadrature - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 8 - Mathematical Modelling and Approximate Solutions - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 9 - Mathematical Modelling and Approximate Solutions - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 10 - Mathematical Modelling and Approximate Solutions - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 11 - Approximation via Variational Principles
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 12 - Introduction to the Finite Element Concept
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 13 - Finite Elements of C^0 Continuity in 1-D - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 14 - Finite Elements of C^0 Continuity in 1-D - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 15 - Finite Elements of C^0 Continuity in 1-D - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 16 - Finite Elements of C^0 Continuity in 1-D - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 17 - Finite Elements of C^1 Continuity in 1-D - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 18 - Finite Elements of C^1 Continuity in 1-D - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 19 - Finite Elements of C^0 Continuity in 2-D and 3-D - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 20 - Finite Elements of C^0 Continuity in 2-D and 3-D - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 21 - Finite Elements of C^0 Continuity in 2-D and 3-D - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 22 - Finite Elements of C^0 Continuity in 2-D and 3-D - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 23 - Finite Elements of C^0 Continuity in 2-D and 3-D - V
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 24 - Finite Elements of C^0 Continuity in 2-D and 3-D - VI
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 25 - Finite Elements of C^0 Continuity in 2-D and 3-D - VII
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 26 - Finite Elements of C^0 Continuity in 2-D and 3-D - VIII
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 27 - Finite Elements of C^0 Continuity in 2-D and 3-D - IX
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 28 - Finite Elements of C^0 Continuity in 2-D and 3-D - X
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 29 - Finite Elements of C^0 Continuity in 2-D and 3-D - XI
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 30 - Finite Elements of C^0 Continuity in 2-D and 3-D - XII
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 31 - Mapped Elements - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 32 - Mapped Elements - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 33 - Mapped Elements - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 34 - Mapped Elements - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 35 - Mapped Elements - V
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 36 - Variational Crimes
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 37 - The Patch Test
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 38 - Finite Elements for Plates and Shells - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 39 - Finite Elements for Plates and Shells - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 40 - Finite Elements for Plates and Shells - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 41 - The Time Dimension and Dynamic Effects - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 42 - The Time Dimension and Dynamic Effects - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 43 - Solution of Linear Simultaneous Equations - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 44 - Solution of Linear Simultaneous Equations - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 45 - Solution of Linear Simultaneous Equations - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 46 - Solution of Linear Simultaneous Equations - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 47 - The Algebraic Eigenvalue Problem - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 48 - The Algebraic Eigenvalue Problem - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 49 - The Algebraic Eigenvalue Problem - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 50 - The Algebraic Eigenvalue Problem - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 51 - Time Marching - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 52 - Time Marching - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 53 - Time Marching - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 54 - Discrete Fourier Transform - I
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 55 - Discrete Fourier Transform - II
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 56 - Discrete Fourier Transform - III
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 57 - Discrete Fourier Transform - IV
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 58 - Discrete Fourier Transform - V
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 59 - Discrete Fourier Transform - VI
Link NOC:Finite Element Method and Computational Structural Dynamics Lecture 60 - Discrete Fourier Transform - VII
Link NOC:Sustainable Transportation systems Lecture 1 - Introduction to Transportation Systems - I
Link NOC:Sustainable Transportation systems Lecture 2 - Introduction to Transportation Systems - II
Link NOC:Sustainable Transportation systems Lecture 3 - Concept of Sustainability
Link NOC:Sustainable Transportation systems Lecture 4 - Current Scenario of Transportation in India
Link NOC:Sustainable Transportation systems Lecture 5 - Climate Change: Indicators and Impacts
Link NOC:Sustainable Transportation systems Lecture 6 - Impacts of Transportation Systems - I
Link NOC:Sustainable Transportation systems Lecture 7 - Impacts of Transportation Systems - II
Link NOC:Sustainable Transportation systems Lecture 8 - Impacts of Transportation Systems - III
Link NOC:Sustainable Transportation systems Lecture 9 - Impacts of Transportation Systems - IV
Link NOC:Sustainable Transportation systems Lecture 10 - Impacts of Transportation Systems - V
Link NOC:Sustainable Transportation systems Lecture 11 - Introduction to Environment Impact Assessment (EIA)
Link NOC:Sustainable Transportation systems Lecture 12 - EIA Processes - I
Link NOC:Sustainable Transportation systems Lecture 13 - EIA Processes - II
Link NOC:Sustainable Transportation systems Lecture 14 - Methodologies of EIA
Link NOC:Sustainable Transportation systems Lecture 15 - EIA Process in India
Link NOC:Sustainable Transportation systems Lecture 16 - Global practices in EIA process
Link NOC:Sustainable Transportation systems Lecture 17 - EIA Case Study - I
Link NOC:Sustainable Transportation systems Lecture 18 - EIA Case Study - II
Link NOC:Sustainable Transportation systems Lecture 19 - EIA Case Study - III
Link NOC:Sustainable Transportation systems Lecture 20 - EIA Case Study - IV
Link NOC:Sustainable Transportation systems Lecture 21 - EIA Case Study - V
Link NOC:Sustainable Transportation systems Lecture 22 - Introduction of Land use
Link NOC:Sustainable Transportation systems Lecture 23 - Land use Planning and Zoning
Link NOC:Sustainable Transportation systems Lecture 24 - Transit Oriented Development (TOD)
Link NOC:Sustainable Transportation systems Lecture 25 - TOD Implementation
Link NOC:Sustainable Transportation systems Lecture 26 - TOD Case study-I: Section of Delhi Metro
Link NOC:Sustainable Transportation systems Lecture 27 - TOD Case study-II: TOD planning for Belgrade, Serbia
Link NOC:Sustainable Transportation systems Lecture 28 - TOD Case study-III: Naya Raipur
Link NOC:Sustainable Transportation systems Lecture 29 - Introduction to Sustainable Transport Planning
Link NOC:Sustainable Transportation systems Lecture 30 - Sustainable Transport Planning and Approaches-I: The Traditional Transport Planning Process
Link NOC:Sustainable Transportation systems Lecture 31 - Sustainable Transport Planning and Approaches-II: The Contemporary Planning Process
Link NOC:Sustainable Transportation systems Lecture 32 - Sustainable Transport Planning and Approaches-III: Management Strategies
Link NOC:Sustainable Transportation systems Lecture 33 - Life Cycle Assessment (LCA): An Introduction
Link NOC:Sustainable Transportation systems Lecture 34 - Life Cycle Assessment: Theory and Practice
Link NOC:Sustainable Transportation systems Lecture 35 - LCA Case Study
Link NOC:Sustainable Transportation systems Lecture 36 - Material Flow Analysis (MFA)
Link NOC:Sustainable Transportation systems Lecture 37 - Material Flow Analysis: Case Study
Link NOC:Sustainable Transportation systems Lecture 38 - Concept of Circular Economy
Link NOC:Sustainable Transportation systems Lecture 39 - Circular Economy in Transport Sector
Link NOC:Sustainable Transportation systems Lecture 40 - Modelling of Transport Emissions - I
Link NOC:Sustainable Transportation systems Lecture 41 - Modelling of Transport Emissions - II
Link NOC:Sustainable Transportation systems Lecture 42 - Dispersion Models for Transport Emissions
Link NOC:Sustainable Transportation systems Lecture 43 - Traffic Noise Emission Models
Link NOC:Sustainable Transportation systems Lecture 44 - Initiatives and Policies for Environmental Sustainability
Link NOC:Sustainable Transportation systems Lecture 45 - National Clean Air Programme and Transport Sector
Link NOC:Sustainable Transportation systems Lecture 46 - Decarbonizing the Transport Sector
Link NOC:Sustainable Transportation systems Lecture 47 - Alternate Fuels and Sustainable Transportation
Link NOC:Sustainable Transportation systems Lecture 48 - Electric Vehicles and Sustainability
Link NOC:Sustainable Transportation systems Lecture 49 - Emerging Transport Technology - Hyperloop
Link NOC:Sustainable Transportation systems Lecture 50 - Case Study-I: Bus Rapid Transit System (BRTS)
Link NOC:Sustainable Transportation systems Lecture 51 - Case Study-II: Mass Rapid Transit (MRT) Systems
Link NOC:Sustainable Transportation systems Lecture 52 - Case Study-III: Sustainability in Airports
Link NOC:Sustainable Transportation systems Lecture 53 - Case Study-IV: Sustainable Water Transport
Link NOC:Sustainable Transportation systems Lecture 54 - Case Study-V: Non-Motorized Transport (NMT)
Link NOC:Sustainable Transportation systems Lecture 55 - openLCA - An LCA Tool
Link NOC:Sustainable Transportation systems Lecture 56 - openLCA Application - Case Study
Link NOC:Sustainable Transportation systems Lecture 57 - Material Flow Analysis Tool - STAN
Link NOC:Sustainable Transportation systems Lecture 58 - Sustainability Indicators
Link NOC:Sustainable Transportation systems Lecture 59 - Sustainable Transport Appraisal Rating (STAR)
Link NOC:Sustainable Transportation systems Lecture 60 - Measuring Sustainability
Link NOC:Air Pollution and Control Lecture 1 - Introduction to Air Pollution - I
Link NOC:Air Pollution and Control Lecture 2 - Introduction to Air Pollution - II
Link NOC:Air Pollution and Control Lecture 3 - Impact of Air Pollution on Human Health
Link NOC:Air Pollution and Control Lecture 4 - Impact of Air Pollution on Vegetation and Animals
Link NOC:Air Pollution and Control Lecture 5 - Impact of Air Pollution on Building Materials and Structures
Link NOC:Air Pollution and Control Lecture 6 - Impact of Air Pollution on Atmosphere, Soil and Water Bodies
Link NOC:Air Pollution and Control Lecture 7 - Sources and Classification of Air Pollutants
Link NOC:Air Pollution and Control Lecture 8 - Atmospheric Formation and Fate of Air Pollutants
Link NOC:Air Pollution and Control Lecture 9 - Meteorological Parameters and Air Pollution
Link NOC:Air Pollution and Control Lecture 10 - Atmospheric Stability and Lapse Rates
Link NOC:Air Pollution and Control Lecture 11 - Atmospheric Stability and Plume Behaviour
Link NOC:Air Pollution and Control Lecture 12 - Boundary Layer, Mixing Height, Stack Height and Plume Rise
Link NOC:Air Pollution and Control Lecture 13 - Status of Air Quality Monitoring in India
Link NOC:Air Pollution and Control Lecture 14 - Air Quality Index (AQI)
Link NOC:Air Pollution and Control Lecture 15 - Introduction to Air Quality Modelling
Link NOC:Air Pollution and Control Lecture 16 - Gaussian Dispersion Model for Point Source
Link NOC:Air Pollution and Control Lecture 17 - Gaussian Dispersion Model for Line Source and Area Source
Link NOC:Air Pollution and Control Lecture 18 - Determination of Concentration of Pollutants using Gaussian Dispersion Model
Link NOC:Air Pollution and Control Lecture 19 - Assimilative Capacity of an Airshed
Link NOC:Air Pollution and Control Lecture 20 - Emission Inventory
Link NOC:Air Pollution and Control Lecture 21 - Transport Emission Inventory
Link NOC:Air Pollution and Control Lecture 22 - Emission Inventory for Industrial Sector
Link NOC:Air Pollution and Control Lecture 23 - Emission Inventory for Agriculture Sector
Link NOC:Air Pollution and Control Lecture 24 - Emission Inventory for Residential and Commercial Sectors
Link NOC:Air Pollution and Control Lecture 25 - Application of Remote Sensing/Satellite-Based Data in Air Quality Management
Link NOC:Air Pollution and Control Lecture 26 - Emission Inventory: Case Study
Link NOC:Air Pollution and Control Lecture 27 - Methods of Source Apportionment
Link NOC:Air Pollution and Control Lecture 28 - Source apportionment using Receptor Modeling
Link NOC:Air Pollution and Control Lecture 29 - Indoor Air Quality: An Introduction
Link NOC:Air Pollution and Control Lecture 30 - Specific Sources and Types of Indoor Air Pollutants
Link NOC:Air Pollution and Control Lecture 31 - Health Impacts Due to Indoor Air Pollution
Link NOC:Air Pollution and Control Lecture 32 - Assessment of Exposure to Indoor Air Pollution
Link NOC:Air Pollution and Control Lecture 33 - Indoor Air Quality Modelling
Link NOC:Air Pollution and Control Lecture 34 - Technologies to Mitigate Indoor Air Pollution
Link NOC:Air Pollution and Control Lecture 35 - Personal Exposure to Fine Particles: A Case Study
Link NOC:Air Pollution and Control Lecture 36 - Indoor Air Quality in Nursery Buildings, UAE – Case Study
Link NOC:Air Pollution and Control Lecture 37 - Global and Regional Environmental Issues - Ozone Depletion
Link NOC:Air Pollution and Control Lecture 38 - Global and Regional Environmental Issues - Global Warming
Link NOC:Air Pollution and Control Lecture 39 - Global and Regional Environmental Issues - Climate Change
Link NOC:Air Pollution and Control Lecture 40 - Global and Regional Environmental Issues - Acid Rain
Link NOC:Air Pollution and Control Lecture 41 - Introduction to Air Pollution Control
Link NOC:Air Pollution and Control Lecture 42 - Air Pollution Control Devices - Part 1
Link NOC:Air Pollution and Control Lecture 43 - Air Pollution Control Devices - Part 2
Link NOC:Air Pollution and Control Lecture 44 - Air Pollution Control Devices - Part 3
Link NOC:Air Pollution and Control Lecture 45 - Air Pollution Control Devices - Part 4
Link NOC:Air Pollution and Control Lecture 46 - Tutorial-II - Practice Examples on Particulate Emission Control Devices
Link NOC:Air Pollution and Control Lecture 47 - Tutorial-III - Practice Examples on Gaseous Emission Control Devices
Link NOC:Air Pollution and Control Lecture 48 - Air Quality Standards
Link NOC:Air Pollution and Control Lecture 49 - Air Pollution Legislations and Regulations
Link NOC:Air Pollution and Control Lecture 50 - National Policies for Managing the Ambient Air Quality (AAQ)
Link NOC:Air Pollution and Control Lecture 51 - International Environmental Treaties to Reduce Air Pollution and GHG Emissions
Link NOC:Air Pollution and Control Lecture 52 - Impact of Lockdown on Air Quality
Link NOC:Air Pollution and Control Lecture 53 - Sector Wise Mitigation Measures to Control Air Pollution
Link NOC:Air Pollution and Control Lecture 54 - Challenges and the Way Forward
Link NOC:Air Pollution and Control Lecture 55 - Sampling and Analysis of PM10 in Ambient Air
Link NOC:Air Pollution and Control Lecture 56 - Sampling and Analysis of PM2.5 in Ambient Air
Link NOC:Air Pollution and Control Lecture 57 - Sampling and Analysis of SO2 and NO2 in Ambient Air
Link NOC:Air Pollution and Control Lecture 58 - Stack Emission Monitoring using Isokinetic Sampling
Link NOC:Air Pollution and Control Lecture 59 - Indoor Air Quality Assessment using Multi Gas Monitor
Link NOC:Air Pollution and Control Lecture 60 - Sampling and Analysis of PM10 and PM2.5 using Spectrometer
Link NOC:Underground Space Technology Lecture 1 - Basics of Rock Engineering: Introduction
Link NOC:Underground Space Technology Lecture 2 - Basics of Rock Engineering: coring, sampling, UCS of intact rock
Link NOC:Underground Space Technology Lecture 3 - Basics of Rock Engineering: Tensile strength and shear strength of intact rock
Link NOC:Underground Space Technology Lecture 4 - Basics of Rock Engineering: Classification of intact rocks, concept of rock mass, RQD
Link NOC:Underground Space Technology Lecture 5 - Basics of Rock Engineering: Classification of rock mass - 1
Link NOC:Underground Space Technology Lecture 6 - Basics of Rock Engineering: Classification of rock mass: Q-system and GSI
Link NOC:Underground Space Technology Lecture 7 - Basics of Rock Engineering: Failure criteria for rocks - 1
Link NOC:Underground Space Technology Lecture 8 - Basics of Rock Engineering: Empirical failure criteria
Link NOC:Underground Space Technology Lecture 9 - Tunneling: Underground excavations
Link NOC:Underground Space Technology Lecture 10 - Tunneling: Ground conditions
Link NOC:Underground Space Technology Lecture 11 - Planning of and exploration for underground construction projects
Link NOC:Underground Space Technology Lecture 12 - Underground excavation failure mechanisms
Link NOC:Underground Space Technology Lecture 13 - Application of stereographic projection method: roof failure
Link NOC:Underground Space Technology Lecture 14 - Application of stereographic projection method: sidewall failures - 1
Link NOC:Underground Space Technology Lecture 15 - Application of stereographic projection method: sidewall failures - 2
Link NOC:Underground Space Technology Lecture 16 - Elastic stress distribution around circular tunnels - 1
Link NOC:Underground Space Technology Lecture 17 - Elastic stress distribution around circular tunnels - 2
Link NOC:Underground Space Technology Lecture 18 - Elastic analysis of circular tunnels-displacements
Link NOC:Underground Space Technology Lecture 19 - Thick wall cylinder in biaxial stress field
Link NOC:Underground Space Technology Lecture 20 - Stress distribution around non-circular openings in elastic ground conditions - 1
Link NOC:Underground Space Technology Lecture 21 - Stress distribution around non-circular openings in elastic ground conditions - 2
Link NOC:Underground Space Technology Lecture 22 - Stress distribution under different in-situ stress conditions: design principles
Link NOC:Underground Space Technology Lecture 23 - Stress distribution for multiple openings
Link NOC:Underground Space Technology Lecture 24 - Openings in laminated rocks - 1
Link NOC:Underground Space Technology Lecture 25 - Openings in laminated rocks - 2
Link NOC:Underground Space Technology Lecture 26 - Openings in laminated rocks - 3
Link NOC:Underground Space Technology Lecture 27 - Openings in laminated rocks - 4
Link NOC:Underground Space Technology Lecture 28 - Elasto-plastic analysis of tunnels: Tresca yield criterion - 1
Link NOC:Underground Space Technology Lecture 29 - Elasto-plastic analysis of tunnels: Tresca yield criterion - 2
Link NOC:Underground Space Technology Lecture 30 - Elasto-plastic analysis of tunnels: Mohr-Coulomb criterion
Link NOC:Underground Space Technology Lecture 31 - Application of rock mass classification system: Terzaghiâs rock load theory - 1
Link NOC:Underground Space Technology Lecture 32 - Application of rock mass classification system: Terzaghiâs rock load theory - 2
Link NOC:Underground Space Technology Lecture 33 - Application of rock mass classification system: rock mass rating (RMR)
Link NOC:Underground Space Technology Lecture 34 - Tunnel hazards
Link NOC:Underground Space Technology Lecture 35 - Tunnel hazards: squeezing ground conditions
Link NOC:Underground Space Technology Lecture 36 - Application of rock mass classification system: rock mass quality system - 1
Link NOC:Underground Space Technology Lecture 37 - Application of rock mass classification system: rock mass quality system - 2, NATM, NMT
Link NOC:Underground Space Technology Lecture 38 - Modulus of deformation of rock mass using Q-system, rock mass number, plate loading test
Link NOC:Underground Space Technology Lecture 39 - Modulus of deformation of rock mass: uni-axial jacking/plate jacking test
Link NOC:Underground Space Technology Lecture 40 - Modulus of deformation of rock mass: radial jacking test and Goodman jack test
Link NOC:Underground Space Technology Lecture 41 - Rock mass support interaction analysis: ground response and support reaction curves - 1
Link NOC:Underground Space Technology Lecture 42 - Rock mass support interaction analysis: ground response and support reaction curves - 2
Link NOC:Underground Space Technology Lecture 43 - Rock mass support interaction analysis: influencing factors, Ladanyiâs E-P analysis
Link NOC:Underground Space Technology Lecture 44 - Ladanyiâs elasto-plastic analysis of tunnels: analysis of stresses and deformations
Link NOC:Underground Space Technology Lecture 45 - Rock-support interaction analysis: required support line, analysis of available support
Link NOC:Underground Space Technology Lecture 46 - Rock-support interaction analysis: for shotcrete/concrete lining and blocked steel sets
Link NOC:Underground Space Technology Lecture 47 - Rock-support interaction analysis: for ungrouted rock bolts, grouted rock bolts/cables
Link NOC:Underground Space Technology Lecture 48 - Calculation sequence for rock-support interaction analysis - 1
Link NOC:Underground Space Technology Lecture 49 - Calculation sequence for rock-support interaction analysis - 2
Link NOC:Underground Space Technology Lecture 50 - Calculation sequence for rock-support interaction analysis - example
Link NOC:Underground Space Technology Lecture 51 - Methods of tunnel excavation, various support systems: shotcrete
Link NOC:Underground Space Technology Lecture 52 - Shotcrete
Link NOC:Underground Space Technology Lecture 53 - Various support systems: rock bolts
Link NOC:Underground Space Technology Lecture 54 - Permeability and groutability - 1
Link NOC:Underground Space Technology Lecture 55 - Permeability and groutability - 2
Link NOC:Underground Space Technology Lecture 56 - Rock stress determination: flat jack test
Link NOC:Underground Space Technology Lecture 57 - Rock stress determination: hydraulic fracturing technique
Link NOC:Underground Space Technology Lecture 58 - Instrumentation and monitoring of tunnels - 1
Link NOC:Underground Space Technology Lecture 59 - Instrumentation and monitoring of tunnels - 2
Link NOC:Underground Space Technology Lecture 60 - Few case studies
Link NOC:Environmental Modeling and Simulation Lecture 1 - Introduction - Part I
Link NOC:Environmental Modeling and Simulation Lecture 2 - Introduction - Part II
Link NOC:Environmental Modeling and Simulation Lecture 3 - 1D Models - Part I
Link NOC:Environmental Modeling and Simulation Lecture 4 - 1D Models - Part II
Link NOC:Environmental Modeling and Simulation Lecture 5 - Logistic Growth Models - Part I
Link NOC:Environmental Modeling and Simulation Lecture 6 - Logistic Growth Models - Part II
Link NOC:Environmental Modeling and Simulation Lecture 7 - 1D Models: Auto Catalysis
Link NOC:Environmental Modeling and Simulation Lecture 8 - Semi Quantitative Approach to Solve 1D Models
Link NOC:Environmental Modeling and Simulation Lecture 9 - Using MATLAB for 1D systems
Link NOC:Environmental Modeling and Simulation Lecture 10 - Using R for 1D Systems
Link NOC:Environmental Modeling and Simulation Lecture 11 - Bifurcations - I
Link NOC:Environmental Modeling and Simulation Lecture 12 - Bifurcations - II
Link NOC:Environmental Modeling and Simulation Lecture 13 - Bifurcations - III
Link NOC:Environmental Modeling and Simulation Lecture 14 - Bifurcations - IV
Link NOC:Environmental Modeling and Simulation Lecture 15 - Bifurcations - V
Link NOC:Environmental Modeling and Simulation Lecture 16 - Insect Outbreak Model
Link NOC:Environmental Modeling and Simulation Lecture 17 - 2D Systems - I
Link NOC:Environmental Modeling and Simulation Lecture 18 - 2D Systems - II
Link NOC:Environmental Modeling and Simulation Lecture 19 - 2D Systems - III
Link NOC:Environmental Modeling and Simulation Lecture 20 - 2D Systems - IV
Link NOC:Environmental Modeling and Simulation Lecture 21 - 2D Systems - V
Link NOC:Environmental Modeling and Simulation Lecture 22 - 2D Systems - VI
Link NOC:Environmental Modeling and Simulation Lecture 23 - 2D Systems - VII
Link NOC:Environmental Modeling and Simulation Lecture 24 - 2D Systems - VIII
Link NOC:Environmental Modeling and Simulation Lecture 25 - 2D Systems - IX
Link NOC:Environmental Modeling and Simulation Lecture 26 - 2D Systems - X
Link NOC:Environmental Modeling and Simulation Lecture 27 - 2D Systems - XI
Link NOC:Environmental Modeling and Simulation Lecture 28 - 2D Systems - XII
Link NOC:Environmental Modeling and Simulation Lecture 29 - Limit Cycles - I
Link NOC:Environmental Modeling and Simulation Lecture 30 - Limit cycles - II and Bifurcations
Link NOC:Environmental Modeling and Simulation Lecture 31 - Bifurcations
Link NOC:Environmental Modeling and Simulation Lecture 32 - Bifurcations - I
Link NOC:Environmental Modeling and Simulation Lecture 33 - Bifurcations - II
Link NOC:Environmental Modeling and Simulation Lecture 34 - Bifurcations - III
Link NOC:Environmental Modeling and Simulation Lecture 35 - Application of Empirical Approach - I
Link NOC:Environmental Modeling and Simulation Lecture 36 - Application of Empirical Approach - II
Link NOC:Environmental Modeling and Simulation Lecture 37 - Application of Empirical Approach - III
Link NOC:Environmental Modeling and Simulation Lecture 38 - Gaussian Plumes - Air - I
Link NOC:Environmental Modeling and Simulation Lecture 39 - Gaussian Plumes - Air - II
Link NOC:Environmental Modeling and Simulation Lecture 40 - Gaussian Plumes - Air - III
Link NOC:Environmental Modeling and Simulation Lecture 41 - Gaussian Plumes - Air - IV
Link NOC:Environmental Modeling and Simulation Lecture 42 - Gaussian Plumes - Air - V
Link NOC:Environmental Modeling and Simulation Lecture 43 - Gaussian Plumes - Air - VI
Link NOC:Environmental Modeling and Simulation Lecture 44 - Ground Water - I
Link NOC:Environmental Modeling and Simulation Lecture 45 - Ground Water - II
Link NOC:Environmental Modeling and Simulation Lecture 46 - Environmental Transport Processes
Link NOC:Environmental Modeling and Simulation Lecture 47 - Environmental Non-reactive and Reactive Processes - I
Link NOC:Environmental Modeling and Simulation Lecture 48 - Environmental Non-reactive and Reactive Processes - II
Link NOC:Environmental Modeling and Simulation Lecture 49 - Environmental Non-reactive and Reactive Processes - III
Link NOC:Environmental Modeling and Simulation Lecture 50 - Homogeneous reactors
Link NOC:Environmental Modeling and Simulation Lecture 51 - Heterogeneous Reactors - I
Link NOC:Environmental Modeling and Simulation Lecture 52 - Heterogeneous Reactors - II
Link NOC:Environmental Modeling and Simulation Lecture 53 - Ground Water Extraction
Link NOC:Environmental Modeling and Simulation Lecture 54 - 2D Model Using MATLAB
Link NOC:Environmental Modeling and Simulation Lecture 55 - Phase Portrait of 1D Models Using R
Link NOC:Environmental Modeling and Simulation Lecture 56 - Phase Portrait of 2D Models Using R
Link NOC:Environmental Modeling and Simulation Lecture 57 - Simulations - I
Link NOC:Environmental Modeling and Simulation Lecture 58 - Simulations - II
Link NOC:Environmental Modeling and Simulation Lecture 59 - Application: Climate change and GDP - I
Link NOC:Environmental Modeling and Simulation Lecture 60 - Application: Climate change and GDP - II
Link NOC:Advanced Geomatics Engineering Lecture 1 - Introduction to Geomatics Engineering
Link NOC:Advanced Geomatics Engineering Lecture 2 - Various Applications of Geomatics Engineering
Link NOC:Advanced Geomatics Engineering Lecture 3 - Photogrammetry - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 4 - Photogrammetry - Geometry of Aerial Photographs
Link NOC:Advanced Geomatics Engineering Lecture 5 - Photogrammetry - Scale of Aerial Photographs
Link NOC:Advanced Geomatics Engineering Lecture 6 - Photogrammetry - Relief Displacment
Link NOC:Advanced Geomatics Engineering Lecture 7 - Photogrammetry - Stereo Pairs and Stereovision
Link NOC:Advanced Geomatics Engineering Lecture 8 - Photogrammetry - Stereovision with Stereoscopes
Link NOC:Advanced Geomatics Engineering Lecture 9 - Photogrammetry - Parallax in Photographs
Link NOC:Advanced Geomatics Engineering Lecture 10 - Height Determination from Stereo-Pairs
Link NOC:Advanced Geomatics Engineering Lecture 11 - Photogrammetry - 3D Mapping, DEM, DTM and DSM
Link NOC:Advanced Geomatics Engineering Lecture 12 - Digital Photogrammetry
Link NOC:Advanced Geomatics Engineering Lecture 13 - Remote Sensing - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 14 - Remote Sensing - Electromagnetic Spectrum
Link NOC:Advanced Geomatics Engineering Lecture 15 - Remote Sensing - Energy Interaction with Atmosphere / Earth Surface
Link NOC:Advanced Geomatics Engineering Lecture 16 - Remote Sensing - Blackbody and Atmospheric Window
Link NOC:Advanced Geomatics Engineering Lecture 17 - Spectral Signature in Remote Sensing
Link NOC:Advanced Geomatics Engineering Lecture 18 - Remote Sensing - Types of Resolutions
Link NOC:Advanced Geomatics Engineering Lecture 19 - Multi-concepts in Remote Sensing
Link NOC:Advanced Geomatics Engineering Lecture 20 - Remote Sensing - Satellite Orbits
Link NOC:Advanced Geomatics Engineering Lecture 21 - Remote Sensing - Various Sensors
Link NOC:Advanced Geomatics Engineering Lecture 22 - Remote Sensing Sensors and Platforms - I
Link NOC:Advanced Geomatics Engineering Lecture 23 - Remote Sensing Sensors and Platforms - II
Link NOC:Advanced Geomatics Engineering Lecture 24 - Very High Resolution Remote Sensing Data
Link NOC:Advanced Geomatics Engineering Lecture 25 - Remote Sensing - Thermal, Microwave, and Hyperspectral Images
Link NOC:Advanced Geomatics Engineering Lecture 26 - Remote Sensing - Visual Interpretation Method
Link NOC:Advanced Geomatics Engineering Lecture 27 - GPS Surveying - Introduction and Components
Link NOC:Advanced Geomatics Engineering Lecture 28 - GPS Surveying - Working Principle
Link NOC:Advanced Geomatics Engineering Lecture 29 - GPS Surveying - Various Methods
Link NOC:Advanced Geomatics Engineering Lecture 30 - GPS Surveying - Sources of Errors
Link NOC:Advanced Geomatics Engineering Lecture 31 - GPS - Applications
Link NOC:Advanced Geomatics Engineering Lecture 32 - LiDAR - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 33 - Data Collection with Mobile Laser Scanners
Link NOC:Advanced Geomatics Engineering Lecture 34 - Data Collection with Airborne LiDAR Systems
Link NOC:Advanced Geomatics Engineering Lecture 35 - Unmanned Aerial Vehicles - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 36 - Classifications of UAVs/Drones
Link NOC:Advanced Geomatics Engineering Lecture 37 - Various Components of Drone and Their Functions
Link NOC:Advanced Geomatics Engineering Lecture 38 - Flying Drones for Data Collection
Link NOC:Advanced Geomatics Engineering Lecture 39 - Unmanned Aerial Vehicles - Various Applications
Link NOC:Advanced Geomatics Engineering Lecture 40 - Digital Image Processing - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 41 - Pre-processing - Atmospheric Corrections
Link NOC:Advanced Geomatics Engineering Lecture 42 - Pre-processing - Geometric Corrections
Link NOC:Advanced Geomatics Engineering Lecture 43 - Pre-processing - Resampling Methods
Link NOC:Advanced Geomatics Engineering Lecture 44 - Digital Image Enhancement Methods
Link NOC:Advanced Geomatics Engineering Lecture 45 - Spatial Filtering in Digital Remote Sensing
Link NOC:Advanced Geomatics Engineering Lecture 46 - Digital Image Transformation Methods
Link NOC:Advanced Geomatics Engineering Lecture 47 - Supervised Classification Methods
Link NOC:Advanced Geomatics Engineering Lecture 48 - Unsupervised Classification Methods
Link NOC:Advanced Geomatics Engineering Lecture 49 - Accuracy Assessment of Classification
Link NOC:Advanced Geomatics Engineering Lecture 50 - Geographic Information System - An Introduction
Link NOC:Advanced Geomatics Engineering Lecture 51 - Various Components of a GIS
Link NOC:Advanced Geomatics Engineering Lecture 52 - GIS - Various Data Types and Their Characteristics
Link NOC:Advanced Geomatics Engineering Lecture 53 - Geographic Information System - Data Input
Link NOC:Advanced Geomatics Engineering Lecture 54 - GIS Databases and Their Uses
Link NOC:Advanced Geomatics Engineering Lecture 55 - GIS - Based Extraction of Parameters from DEM
Link NOC:Advanced Geomatics Engineering Lecture 56 - Buffering and Overlay Analysis in GIS
Link NOC:Advanced Geomatics Engineering Lecture 57 - Spatial and Network Analysis in GIS
Link NOC:Advanced Geomatics Engineering Lecture 58 - Geomatics Applications - Site Suitability Analysis
Link NOC:Advanced Geomatics Engineering Lecture 59 - Geomatics Applications - Transportation Route Planning
Link NOC:Advanced Geomatics Engineering Lecture 60 - Geomatics Applications - Smart City Planning
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 1 - Introduction to Soil as a Highway Material
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 2 - Particle Size Distribution - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 3 - Particle Size Distribution - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 4 - Consistency Limits and Classification of Soils - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 5 - Consistency Limits and Classification of Soils - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 6 - Strength Properties of Soil - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 7 - Strength Properties of Soil - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 8 - Strength Properties of Soil - Part 3
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 9 - Strength Properties of Soil - Part 4
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 10 - Expansive Soils and Stabilization Techniques
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 11 - Introduction to Mineral Aggregates: Origin and Types
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 12 - Production and Storage of Aggregates
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 13 - Classification and Gradation of Aggregates - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 14 - Classification and Gradation of Aggregates - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 15 - Mineralogy of Aggregates and its Importance
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 16 - Aggregates Shape and Surface Texture
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 17 - Aggregate Properties - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 18 - Aggregate Properties - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 19 - Aggregate Properties - Part 3
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 20 - Aggregate Properties - Part 4
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 21 - Bitumen Basics
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 22 - Chemistry of Bitumen
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 23 - Physical Properties of Bitumen - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 24 - Physical Properties of Bitumen - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 25 - Physical Properties of Bitumen - Part 3
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 26 - Introduction to Viscoelasticity
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 27 - Rheological Properties of Bitumen - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 28 - Rheological Properties of Bitumen - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 29 - Grading of Bitumen - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 30 - Grading of Bitumen - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 31 - Modified Bitumen
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 32 - Bitumen Emulsion
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 33 - Production of Bituminous Mixtures
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 34 - Role and Desirable Properties: Mix Design
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 35 - Volumetrics in Mix Design - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 36 - Volumetrics in Mix Design - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 37 - Volumetrics in Mix Design - Part 3
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 38 - Volumetrics in Mix Design - Part 4
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 39 - Volumetrics in Mix Design - Part 5
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 40 - Marshall and Superpave Mix Design - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 41 - Marshall and Superpave Mix Design - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 42 - Hot Recycled Mixtures - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 43 - Hot Recycled Mixtures - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 44 - Hot Recycled Mixtures - Part 3
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 45 - Cold Bituminous Mixtures
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 46 - Performance Based Mix Design Concepts
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 47 - Characterization of Bituminous Mixtures - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 48 - Characterization of Bituminous Mixtures - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 49 - Cementitious Materials - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 50 - Cementitious Materials - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 51 - Types of Cement, Admixtures, Geopolymers - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 52 - Types of Cement, Admixtures, Geopolymers - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 53 - Mix Design of PQC - IRC 44
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 54 - Mix Design of PQC - Examples - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 55 - Mix Design of PQC - Examples - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 56 - Mix Design of DLC - IRC SP 49
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 57 - Mix Design of Pervious Concrete - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 58 - Mix Design of Pervious Concrete - Part 2
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 59 - Overview of Alternate Pavement Materials - Part 1
Link NOC:Pavement Materials (Under Pavement Engineering) Lecture 60 - Overview of Alternate Pavement Materials - Part 2
Link NOC:Geometric Design of Highways Lecture 1 - Introduction and Design Controls - 1
Link NOC:Geometric Design of Highways Lecture 2 - Design Controls - 2
Link NOC:Geometric Design of Highways Lecture 3 - Design Controls - 3
Link NOC:Geometric Design of Highways Lecture 4 - Design Controls - 4
Link NOC:Geometric Design of Highways Lecture 5 - Design Controls and Space Requirements
Link NOC:Geometric Design of Highways Lecture 6 - Space and Sight Distance Requirements - 1
Link NOC:Geometric Design of Highways Lecture 7 - Sight Distance Requirements - 2
Link NOC:Geometric Design of Highways Lecture 8 - Sight Distance Requirements - 3
Link NOC:Geometric Design of Highways Lecture 9 - Sight Distance Requirements - 4
Link NOC:Geometric Design of Highways Lecture 10 - Sight Distance Requirements - 5
Link NOC:Geometric Design of Highways Lecture 11 - Cross-Section Elements - 1
Link NOC:Geometric Design of Highways Lecture 12 - Cross-Section Elements - 2
Link NOC:Geometric Design of Highways Lecture 13 - Cross-Section Elements - 3
Link NOC:Geometric Design of Highways Lecture 14 - Cross-Section Elements - 4
Link NOC:Geometric Design of Highways Lecture 15 - Cross-Section Elements - 5
Link NOC:Geometric Design of Highways Lecture 16 - Cross-Section Elements - 6
Link NOC:Geometric Design of Highways Lecture 17 - Cross-Section Elements - 7
Link NOC:Geometric Design of Highways Lecture 18 - Cross-Section Elements - 8
Link NOC:Geometric Design of Highways Lecture 19 - Cross-Section Elements - 9
Link NOC:Geometric Design of Highways Lecture 20 - Crossing Facility and Road Furniture - 1
Link NOC:Geometric Design of Highways Lecture 21 - Road Furniture - 2
Link NOC:Geometric Design of Highways Lecture 22 - Road Furniture - 3
Link NOC:Geometric Design of Highways Lecture 23 - Road Furniture - 4
Link NOC:Geometric Design of Highways Lecture 24 - Road Furniture - 5
Link NOC:Geometric Design of Highways Lecture 25 - Road Furniture - 6
Link NOC:Geometric Design of Highways Lecture 26 - Road Furniture - 7
Link NOC:Geometric Design of Highways Lecture 27 - Alignment Design - 1
Link NOC:Geometric Design of Highways Lecture 28 - Alignment Design - 2
Link NOC:Geometric Design of Highways Lecture 29 - Alignment Design - 3
Link NOC:Geometric Design of Highways Lecture 30 - Alignment Design - 4
Link NOC:Geometric Design of Highways Lecture 31 - Alignment Design - 5
Link NOC:Geometric Design of Highways Lecture 32 - Alignment Design - 6
Link NOC:Geometric Design of Highways Lecture 33 - Alignment Design - 7
Link NOC:Geometric Design of Highways Lecture 34 - Alignment Design - 8
Link NOC:Geometric Design of Highways Lecture 35 - Alignment Design - 9
Link NOC:Geometric Design of Highways Lecture 36 - Alignment Design - 10
Link NOC:Geometric Design of Highways Lecture 37 - Alignment Design - 11
Link NOC:Geometric Design of Highways Lecture 38 - Alignment Design - 12
Link NOC:Geometric Design of Highways Lecture 39 - Alignment Design - 13
Link NOC:Geometric Design of Highways Lecture 40 - Alignment Design - 14
Link NOC:Geometric Design of Highways Lecture 41 - Alignment Design - 15
Link NOC:Geometric Design of Highways Lecture 42 - Alignment Design - 16
Link NOC:Geometric Design of Highways Lecture 43 - Intersection Layouts - 1
Link NOC:Geometric Design of Highways Lecture 44 - Intersection Layouts - 2
Link NOC:Geometric Design of Highways Lecture 45 - Intersection Layouts - 3
Link NOC:Geometric Design of Highways Lecture 46 - Intersection Layouts - 4
Link NOC:Geometric Design of Highways Lecture 47 - Intersection Layouts - 5
Link NOC:Geometric Design of Highways Lecture 48 - Intersection Layouts - 6
Link NOC:Geometric Design of Highways Lecture 49 - Intersection Layouts - 7
Link NOC:Geometric Design of Highways Lecture 50 - Intersection Layouts - 8
Link NOC:Geometric Design of Highways Lecture 51 - Intersection Layouts - 9
Link NOC:Geometric Design of Highways Lecture 52 - Intersection Layouts - 10
Link NOC:Geometric Design of Highways Lecture 53 - Design of Facilities - 1
Link NOC:Geometric Design of Highways Lecture 54 - Design of Facilities - 2
Link NOC:Geometric Design of Highways Lecture 55 - Design of Facilities - 3
Link NOC:Geometric Design of Highways Lecture 56 - Design of Facilities - 4
Link NOC:Geometric Design of Highways Lecture 57 - Design of Facilities - 5
Link NOC:Geometric Design of Highways Lecture 58 - Design of Facilities - 6
Link NOC:Geometric Design of Highways Lecture 59 - Design of Facilities - 7
Link NOC:Geometric Design of Highways Lecture 60 - Design of Facilities - 8
Link NOC:Geometric Design of Highways Lecture 61 - Design of Facilities - 9
Link NOC:Geometric Design of Highways Lecture 62 - Design of Facilities - 10
Link NOC:Plate Tectonics Lecture 1 - Interior of Earth - I
Link NOC:Plate Tectonics Lecture 2 - Interior of Earth - II
Link NOC:Plate Tectonics Lecture 3 - Interior of Earth - III
Link NOC:Plate Tectonics Lecture 4 - Interior of Earth - IV
Link NOC:Plate Tectonics Lecture 5 - Interior of Earth - V
Link NOC:Plate Tectonics Lecture 6 - Interior of Earth - VI
Link NOC:Plate Tectonics Lecture 7 - Oceanic Crust - I
Link NOC:Plate Tectonics Lecture 8 - Oceanic Crust - II
Link NOC:Plate Tectonics Lecture 9 - Continental Crust - I
Link NOC:Plate Tectonics Lecture 10 - Continental Crust - II
Link NOC:Plate Tectonics Lecture 11 - Types of Plates and Plate Margins
Link NOC:Plate Tectonics Lecture 12 - Basic Assumption of Plate Tectonics
Link NOC:Plate Tectonics Lecture 13 - Relative Motion of Lithospheric Plates
Link NOC:Plate Tectonics Lecture 14 - Euler's Theory on Lithospheric Plate Motion
Link NOC:Plate Tectonics Lecture 15 - Constructive/Creative Plate Margin
Link NOC:Plate Tectonics Lecture 16 - Slow and Fast Spreading Ridges
Link NOC:Plate Tectonics Lecture 17 - Magma Chamber Properties at Mid-Oceanic Ridge
Link NOC:Plate Tectonics Lecture 18 - Age-Depth Relationship Around the Mid-Oceanic Ridge
Link NOC:Plate Tectonics Lecture 19 - Along Axis Segmentation of the Mid Oceanic Ridge
Link NOC:Plate Tectonics Lecture 20 - Propagating Rifts and Microplate Development
Link NOC:Plate Tectonics Lecture 21 - Conservative Plate Margin - I
Link NOC:Plate Tectonics Lecture 22 - Conservative Plate Margin - II, Continental Transform Faults
Link NOC:Plate Tectonics Lecture 23 - Conservative Plate Margin - III, Transform Continental Margins
Link NOC:Plate Tectonics Lecture 24 - Conservative Plate Margin - IV, Continental Transform Faults
Link NOC:Plate Tectonics Lecture 25 - Destructive Plate Margins - I
Link NOC:Plate Tectonics Lecture 26 - Destructive Plate Margins - II, The Oceanic Trench
Link NOC:Plate Tectonics Lecture 27 - Destructive Plate Margins - III, The Island Arc System
Link NOC:Plate Tectonics Lecture 28 - Destructive Plate Margins - IV, The Back Arc Basin and Accretionary Prism
Link NOC:Plate Tectonics Lecture 29 - Destructive Plate Margins - V, Seismicity in the Subduction Zone
Link NOC:Plate Tectonics Lecture 30 - Destructive Plate Margins - VI, Gravity Anomaly and Thermal Structure at Subduction Zone
Link NOC:Plate Tectonics Lecture 31 - Magmatism and Metamorphism at Different Plate Settings - I, Magmatism at Subduction Zone
Link NOC:Plate Tectonics Lecture 32 - Magmatism and Metamorphism at Different Plate Settings - II, Metamorphic at Subduction Zone
Link NOC:Plate Tectonics Lecture 33 - Orogeny and Epiorogeny - I, Ocean-Continent Collision
Link NOC:Plate Tectonics Lecture 34 - Orogeny and Epiorogeny - II, Continent-Continent Collision
Link NOC:Plate Tectonics Lecture 35 - Orogeny and Epiorogeny - III, Arc-Continent Collision
Link NOC:Plate Tectonics Lecture 36 - Fault Plane Solution
Link NOC:Plate Tectonics Lecture 37 - Plate Tectonics and Mineralisation - I
Link NOC:Plate Tectonics Lecture 38 - Plate Tectonics and Mineralisation - II
Link NOC:Plate Tectonics Lecture 39 - Plate Tectonics and Mineralisation at Divergent Margins - III
Link NOC:Plate Tectonics Lecture 40 - Plate Tectonics and Mineralisation at Divergent Margins - IV
Link NOC:Plate Tectonics Lecture 41 - Plate Tectonics and Mineralisation at Convergent Margins - V
Link NOC:Plate Tectonics Lecture 42 - Plate Tectonics and Mineralisation at Convergent Margins - VI
Link NOC:Plate Tectonics Lecture 43 - Plate Tectonics and Mineralisation at Convergent Margins - VII
Link NOC:Plate Tectonics Lecture 44 - Plate Tectonics and Mineralisation at Intraplate Tectono-Metallogenic System - VIII
Link NOC:Plate Tectonics Lecture 45 - Plate Tectonics and Hydrocarbon Exploration - I
Link NOC:Plate Tectonics Lecture 46 - Plate Tectonics and Hydrocarbon Exploration - II
Link NOC:Plate Tectonics Lecture 47 - Plate Tectonics and Climate Change
Link NOC:Plate Tectonics Lecture 48 - Stability of Triple Junction
Link NOC:Plate Tectonics Lecture 49 - Volcano
Link NOC:Plate Tectonics Lecture 50 - Volcano and its Products - I
Link NOC:Plate Tectonics Lecture 51 - Volcano and its Products - II
Link NOC:Plate Tectonics Lecture 52 - Himalayan Tectonics - I
Link NOC:Plate Tectonics Lecture 53 - Himalayan Tectonics - II
Link NOC:Plate Tectonics Lecture 54 - Indian Seismicity
Link NOC:Plate Tectonics Lecture 55 - Neotectonics - I
Link NOC:Plate Tectonics Lecture 56 - Neotectonics - II
Link NOC:Plate Tectonics Lecture 57 - Continental Drift - I
Link NOC:Plate Tectonics Lecture 58 - Continental Drift - II
Link NOC:Plate Tectonics Lecture 59 - Seafloor Spreading
Link NOC:Plate Tectonics Lecture 60 - Global Positioning System (GPS) and Plate
Link NOC:Earthquake Geotechnical Engineering Lecture 1 - Introduction
Link NOC:Earthquake Geotechnical Engineering Lecture 2 - Introduction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 3 - Engineering Seismology
Link NOC:Earthquake Geotechnical Engineering Lecture 4 - Engineering Seismology (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 5 - Strong Ground Motion
Link NOC:Earthquake Geotechnical Engineering Lecture 6 - Strong Ground Motion (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 7 - Seismic Hazard Analysis
Link NOC:Earthquake Geotechnical Engineering Lecture 8 - Seismic Hazard Analysis (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 9 - Wave Propagation
Link NOC:Earthquake Geotechnical Engineering Lecture 10 - Wave Propagation (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 11 - Stress Conditions
Link NOC:Earthquake Geotechnical Engineering Lecture 12 - Field Tests
Link NOC:Earthquake Geotechnical Engineering Lecture 13 - Field Tests (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 14 - Field Tests (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 15 - Laboratory Tests
Link NOC:Earthquake Geotechnical Engineering Lecture 16 - Laboratory Tests (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 17 - Laboratory Tests (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 18 - Constitutive Relationships of Soils
Link NOC:Earthquake Geotechnical Engineering Lecture 19 - Constitutive Relationships of Soils (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 20 - Constitutive Relationships of Soils (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 21 - One-Dimensional
Link NOC:Earthquake Geotechnical Engineering Lecture 22 - One-Dimensional (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 23 - One-Dimensional (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 24 - Two Dimensional
Link NOC:Earthquake Geotechnical Engineering Lecture 25 - Soil-Structure Interaction
Link NOC:Earthquake Geotechnical Engineering Lecture 26 - Soil-Structure Interaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 27 - Local Site Effects
Link NOC:Earthquake Geotechnical Engineering Lecture 28 - Local Site Effects (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 29 - Local Site Effects (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 30 - Local Site Effects (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 31 - Introduction
Link NOC:Earthquake Geotechnical Engineering Lecture 32 - Liquefaction Susceptibility
Link NOC:Earthquake Geotechnical Engineering Lecture 33 - Liquefaction Susceptibility (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 34 - Initiation of Liquefaction
Link NOC:Earthquake Geotechnical Engineering Lecture 35 - Initiation of Liquefaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 36 - Initiation of Liquefaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 37 - Initiation of Liquefaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 38 - Initiation of Liquefaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 39 - Initiation of Liquefaction (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 40 - Effects of Liquefaction
Link NOC:Earthquake Geotechnical Engineering Lecture 41 - Slope Stability Analysis
Link NOC:Earthquake Geotechnical Engineering Lecture 42 - Slope Stability Analysis (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 43 - Slope Stability Analysis (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 44 - Slope Stability Analysis (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 45 - Slope Stability Analysis (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 46 - Introduction to Retaining Walls
Link NOC:Earthquake Geotechnical Engineering Lecture 47 - Static Pressure on Retaining Walls
Link NOC:Earthquake Geotechnical Engineering Lecture 48 - Static Pressure on Retaining Walls (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 49 - Design of Retaining Walls
Link NOC:Earthquake Geotechnical Engineering Lecture 50 - Design of Retaining Walls (Continued...)
Link NOC:Earthquake Geotechnical Engineering Lecture 51 - Slope Stability and Retaining Walls: Design of Retaining Walls
Link NOC:Earthquake Geotechnical Engineering Lecture 52 - Ground Improvement Techniques: Types of GIT
Link NOC:Earthquake Geotechnical Engineering Lecture 53 - Ground Improvement Techniques: Types of GIT
Link NOC:Earthquake Geotechnical Engineering Lecture 54 - Ground Improvement Techniques: Types of GIT
Link NOC:Earthquake Geotechnical Engineering Lecture 55 - Ground Improvement Techniques: Geosynthetics
Link NOC:Earthquake Geotechnical Engineering Lecture 56 - Ground Improvement Techniques: Geosynthetics
Link NOC:Earthquake Geotechnical Engineering Lecture 57 - Ground Improvement Techniques: Vertical Drains
Link NOC:Earthquake Geotechnical Engineering Lecture 58 - Ground Improvement Techniques: Vertical Drains
Link NOC:Earthquake Geotechnical Engineering Lecture 59 - Ground Improvement Techniques: Reinforced Fibers
Link NOC:Earthquake Geotechnical Engineering Lecture 60 - Ground Improvement Techniques: Verification and IS Code
Link Ground Improvement Techniques Lecture 1 - Need for Ground Improvement
Link Ground Improvement Techniques Lecture 2 - Classification of ground modification techniques
Link Ground Improvement Techniques Lecture 3 - Emerging trends in ground improvement
Link Ground Improvement Techniques Lecture 4 - Mechanical modification
Link Ground Improvement Techniques Lecture 5 - Compaction Control
Link Ground Improvement Techniques Lecture 6 - Deep compaction
Link Ground Improvement Techniques Lecture 7 - Dynamic compaction
Link Ground Improvement Techniques Lecture 8 - Vibro-compaction methods
Link Ground Improvement Techniques Lecture 9 - Case studies in stone columns
Link Ground Improvement Techniques Lecture 10 - Prefabricated Vertical Drains (PVDS) - I
Link Ground Improvement Techniques Lecture 11 - Prefabricated drains (PVDS) - II
Link Ground Improvement Techniques Lecture 12 - Dewatering - I
Link Ground Improvement Techniques Lecture 13 - Dewatering - II
Link Ground Improvement Techniques Lecture 14 - Electro-kinetic stabilization
Link Ground Improvement Techniques Lecture 15 - Heating and freezing methods, Blasting methods - I
Link Ground Improvement Techniques Lecture 16 - Heating and freezing methods, Blasting methods - II
Link Ground Improvement Techniques Lecture 17 - Ground Treatment with lime - I
Link Ground Improvement Techniques Lecture 18 - Ground Treatment with lime - II
Link Ground Improvement Techniques Lecture 19 - Ground treatment with cement
Link Ground Improvement Techniques Lecture 20 - Grouting procedures
Link Ground Improvement Techniques Lecture 21 - Grouting
Link Ground Improvement Techniques Lecture 22 - Micropiles
Link Ground Improvement Techniques Lecture 23 - Introduction to Geosynthetics - I
Link Ground Improvement Techniques Lecture 24 - Introduction to Geosynthetics - II
Link Ground Improvement Techniques Lecture 25 - Reinforced soil principles and mechanisms
Link Ground Improvement Techniques Lecture 26 - Material properties
Link Ground Improvement Techniques Lecture 27 - Factors affecting reinforced soil
Link Ground Improvement Techniques Lecture 28 - Bearing capacity improvement - I
Link Ground Improvement Techniques Lecture 29 - Bearing capacity improvement - II
Link Ground Improvement Techniques Lecture 30 - Reinforced soil slopes
Link Ground Improvement Techniques Lecture 31 - Reinforced Soil Walls
Link Ground Improvement Techniques Lecture 32 - Reinforced Soil Walls - I
Link Ground Improvement Techniques Lecture 33 - Soil Nailing
Link Ground Improvement Techniques Lecture 34 - Design of embankments on soft soil using geosynthetics
Link Ground Improvement Techniques Lecture 35 - Design of embankments on soft soil using geocells, Use of geosyntheticsfor filtration and drainage
Link Ground Improvement Techniques Lecture 36 - Applications in filtration and drainage & erosion control
Link Ground Improvement Techniques Lecture 37 - Geosynthetics in pavements
Link Ground Improvement Techniques Lecture 38 - Sustainable development and energy geotechnology
Link Ground Improvement Techniques Lecture 39 - Microbial geotechnology and Ground Improvement
Link Ground Improvement Techniques Lecture 40 - Nano-technologies in ground improvement and site remediation
Link Stochastic Hydrology Lecture 1 - Introduction
Link Stochastic Hydrology Lecture 2 - Bivariate Distributions
Link Stochastic Hydrology Lecture 3 - Independence ; Functions of Random Variables
Link Stochastic Hydrology Lecture 4 - Moments of a Distribution
Link Stochastic Hydrology Lecture 5 - Normal Distribution
Link Stochastic Hydrology Lecture 6 - Other Continuous Distributions
Link Stochastic Hydrology Lecture 7 - Parameter Estimation
Link Stochastic Hydrology Lecture 8 - Covariance and Correlation
Link Stochastic Hydrology Lecture 9 - Data Generation
Link Stochastic Hydrology Lecture 10 - Time Series Analysis (1)
Link Stochastic Hydrology Lecture 11 - Time Series Analysis (2)
Link Stochastic Hydrology Lecture 12 - Time Series Analysis (3)
Link Stochastic Hydrology Lecture 13 - Frequency Domain Analysis (1)
Link Stochastic Hydrology Lecture 14 - Frequency Domain Analysis (2) and ARIMA Models (1)
Link Stochastic Hydrology Lecture 15 - ARIMA Models (2)
Link Stochastic Hydrology Lecture 16 - ARIMA Models (3)
Link Stochastic Hydrology Lecture 17 - ARIMA Models (4)
Link Stochastic Hydrology Lecture 18 - Case Studies (1)
Link Stochastic Hydrology Lecture 19 - Case Studies (2)
Link Stochastic Hydrology Lecture 20 - Case Studies (3)
Link Stochastic Hydrology Lecture 21 - Case Studies (4)
Link Stochastic Hydrology Lecture 22 - Markov Chains (1)
Link Stochastic Hydrology Lecture 23 - Markov Chains (2)
Link Stochastic Hydrology Lecture 24 - Frequency Analysis (1)
Link Stochastic Hydrology Lecture 25 - Frequency Analysis (2)
Link Stochastic Hydrology Lecture 26 - Frequency Analysis (3) and Probability Plotting (1)
Link Stochastic Hydrology Lecture 27 - Probability Plotting (2)
Link Stochastic Hydrology Lecture 28 - Goodness of Fit
Link Stochastic Hydrology Lecture 29 - IDF Relationships
Link Stochastic Hydrology Lecture 30 - Multiple Linear Regression
Link Stochastic Hydrology Lecture 31 - Principal Component Analysis
Link Stochastic Hydrology Lecture 32 - Regression on Principal Components
Link Stochastic Hydrology Lecture 33 - Multivariate Stochastic Models (1)
Link Stochastic Hydrology Lecture 34 - Multivariate Stochastic Models (2)
Link Stochastic Hydrology Lecture 35 - Multivariate Stochastic Models (3)
Link Stochastic Hydrology Lecture 36 - Data Consistency Checks (1)
Link Stochastic Hydrology Lecture 37 - Data Consistency Checks (2)
Link Stochastic Hydrology Lecture 38 - Data Consistency Checks (3)
Link Stochastic Hydrology Lecture 39 - Recent Applications: Climate Change Impact Assessment
Link Stochastic Hydrology Lecture 40 - Summary of the Course
Link Stochastic Structural Dynamics Lecture 1 - Definition of probability measure and conditional probability
Link Stochastic Structural Dynamics Lecture 2 - Scalar random variables - 1
Link Stochastic Structural Dynamics Lecture 3 - Scalar random variables - 2
Link Stochastic Structural Dynamics Lecture 4 - Multi-dimensional random variables - 1
Link Stochastic Structural Dynamics Lecture 5 - Multi-dimensional random variables - 2
Link Stochastic Structural Dynamics Lecture 6 - Random processes - 1
Link Stochastic Structural Dynamics Lecture 7 - Random processes - 2
Link Stochastic Structural Dynamics Lecture 8 - Random processes - 3
Link Stochastic Structural Dynamics Lecture 9 - Random processes - 4, Random vibrations of sdof systems - 1
Link Stochastic Structural Dynamics Lecture 10 - Random processes - 4, Random vibrations of sdof systems - 1
Link Stochastic Structural Dynamics Lecture 11 - Random vibrations of sdof systems - 2
Link Stochastic Structural Dynamics Lecture 12 - Random vibrations of sdof systems - 3
Link Stochastic Structural Dynamics Lecture 13 - Random vibrations of sdof systems - 4
Link Stochastic Structural Dynamics Lecture 14 - Random vibrations of mdof systems - 1
Link Stochastic Structural Dynamics Lecture 15 - Random vibrations of mdof systems - 2
Link Stochastic Structural Dynamics Lecture 16 - Random vibrations of mdof systems - 3
Link Stochastic Structural Dynamics Lecture 17 - Random vibrations of mdof systems - 4
Link Stochastic Structural Dynamics Lecture 18 - Failure of randomly vibrating systems - 1
Link Stochastic Structural Dynamics Lecture 19 - Failure of randomly vibrating systems - 2
Link Stochastic Structural Dynamics Lecture 20 - Failure of randomly vibrating systems - 3
Link Stochastic Structural Dynamics Lecture 21 - Failure of randomly vibrating systems - 4
Link Stochastic Structural Dynamics Lecture 22 - Markov vector approach - 1
Link Stochastic Structural Dynamics Lecture 23 - Markov vector approach - 2
Link Stochastic Structural Dynamics Lecture 24 - Markov vector approach - 3
Link Stochastic Structural Dynamics Lecture 25 - Markov vector approach - 4
Link Stochastic Structural Dynamics Lecture 26 - Markov vector approach - 5, Monte Carlo simulation approach - 1
Link Stochastic Structural Dynamics Lecture 27 - Markov vector approach - 5 & Monte Carlo simulation approach - 1
Link Stochastic Structural Dynamics Lecture 28 - Monte Carlo simulation approach - 2
Link Stochastic Structural Dynamics Lecture 29 - Monte Carlo simulation approach - 3
Link Stochastic Structural Dynamics Lecture 30 - Monte Carlo simulation approach - 4
Link Stochastic Structural Dynamics Lecture 31 - Monte Carlo simulation approach - 5
Link Stochastic Structural Dynamics Lecture 32 - Monte Carlo simulation approach - 6
Link Stochastic Structural Dynamics Lecture 33 - Monte Carlo simulation approach - 7
Link Stochastic Structural Dynamics Lecture 34 - Probabilistic methods in earthquake engineering - 1
Link Stochastic Structural Dynamics Lecture 35 - Probabilistic methods in earthquake engineering - 2
Link Stochastic Structural Dynamics Lecture 36 - Probabilistic methods in earthquake engineering - 3
Link Stochastic Structural Dynamics Lecture 37 - Probabilistic methods in earthquake engineering - 4
Link Stochastic Structural Dynamics Lecture 38 - Fatigue failure & Vibration energy flow models
Link Stochastic Structural Dynamics Lecture 39 - Problem solving session - 1
Link Stochastic Structural Dynamics Lecture 40 - Problem solving session - 2
Link Stochastic Structural Dynamics Lecture 41 - Problem solving session - 3
Link Stochastic Structural Dynamics Lecture 42 - Problem solving session - 4
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 1 - Introduction
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 2 - Definitions and types of systems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 3 - Optimization: Functions of a single variable
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 4 - Optimization: Functions of multiple variables
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 5 - Constrained optimization (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 6 - Constrained optimization (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 7 - Kuhn-Tucker conditions and Introduction to Linear Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 8 - Linear Programming: Graphical method
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 9 - Linear Programming: Simplex method (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 10 - Linear Programming: Simplex method (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 11 - Linear Programming: Multiple solutions
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 12 - Linear Programming: Unbounded and infeasible problems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 13 - Linear Programming: Dual problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 14 - Introduction to Dynamic Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 15 - Dynamic Programming: Water allocation problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 16 - Dynamic Programming: Reservoir operation problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 17 - Dynamic Programming: Capacity expansion and shortest route problems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 18 - Simulation: Introduction to Multi-objective planning
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 19 - Multi-objective planning
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 20 - Reservoir sizing
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 21 - Reservoir capacity using Linear Programming (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 22 - Reservoir capacity using Linear Programming (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 23 - Reservoir operation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 24 - Multi-reservoir systems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 25 - Stationary policy using Dynamic Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 26 - Hydropower generation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 27 - Basic probability theory (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 28 - Basic probability theory (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 29 - Chance constrained Linear Programming for reservoir operation and design (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 30 - Chance constrained Linear Programming for reservoir operation and design (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 31 - Stochastic Dynamic Programming for reservoir operation (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 32 - Stochastic Dynamic Programming for reservoir operation (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 33 - Stochastic Dynamic Programming for reservoir operation (3)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 34 - Fuzzy optimization (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 35 - Fuzzy optimization (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 36 - Fuzzy optimization for water quality control and reservoir operation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 37 - Conjunctive use of ground and surface water
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 38 - Hydropower optimization
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 39 - Crop yield optimization
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 40 - Multi-basin and multi-reservoir systems
Link Finite Element method for vibration and Stability analyses Lecture 1 - Equations of motion using Hamilton’s principle
Link Finite Element method for vibration and Stability analyses Lecture 2 - Equations of motion for continuous systems and Rayleigh’s quotient
Link Finite Element method for vibration and Stability analyses Lecture 3 - Rayleigh Ritz method and method of weighted residuals
Link Finite Element method for vibration and Stability analyses Lecture 4 - FEM: motivations. Analysis of axially vibrating rods and Euler-Bernoulli beams
Link Finite Element method for vibration and Stability analyses Lecture 5 - Beam elements. Reference systm. Assembly of matrices. Imposition of BCS. Final equation of motion
Link Finite Element method for vibration and Stability analyses Lecture 6 - FE modelling of planar structures
Link Finite Element method for vibration and Stability analyses Lecture 7 - FE modelling of planar structures (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 8 - FRF-s and damping models-1
Link Finite Element method for vibration and Stability analyses Lecture 9 - FRF-s and damping models-2
Link Finite Element method for vibration and Stability analyses Lecture 10 - Material damping models. Dynamic stiffness and transfer matrices
Link Finite Element method for vibration and Stability analyses Lecture 11 - Twisting of circular bars and rectangular bars. Analysis of grids
Link Finite Element method for vibration and Stability analyses Lecture 12 - 3D frames
Link Finite Element method for vibration and Stability analyses Lecture 13 - Mathematical preliminaries and terminologies; Euler’s forward and backward difference methods
Link Finite Element method for vibration and Stability analyses Lecture 14 - Forward and backward Euler method. Central difference method
Link Finite Element method for vibration and Stability analyses Lecture 15 - Second order implicit methods
Link Finite Element method for vibration and Stability analyses Lecture 16 - Energy conservation. Nonlinear systems
Link Finite Element method for vibration and Stability analyses Lecture 17 - Model reduction schemes
Link Finite Element method for vibration and Stability analyses Lecture 18 - Substructuring schemes
Link Finite Element method for vibration and Stability analyses Lecture 19 - Plane stress models
Link Finite Element method for vibration and Stability analyses Lecture 20 - Plane stress models (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 21 - 3d Solid element
Link Finite Element method for vibration and Stability analyses Lecture 22 - Axisymmetric models. Plate bending elements.
Link Finite Element method for vibration and Stability analyses Lecture 23 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 24 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 25 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 26 - Introduction
Link Finite Element method for vibration and Stability analyses Lecture 27 - Introduction (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 28 - Nonlinear dynamical systems, fixed points and bifurcations
Link Finite Element method for vibration and Stability analyses Lecture 29 - Energy methods in stability analysis
Link Finite Element method for vibration and Stability analyses Lecture 30 - FEM for stability analysis. Euler-Bernoulli beam and general formulations
Link Finite Element method for vibration and Stability analyses Lecture 31 - 3D beam element; plate element; imperfection sensitive structures; beams on elastic foundations; rings and arches
Link Finite Element method for vibration and Stability analyses Lecture 32 - Dynamic analysis of stability and analysis of time varying systems
Link Finite Element method for vibration and Stability analyses Lecture 33 - Dynamic analysis of stability and analysis of time varying systems
Link Finite Element method for vibration and Stability analyses Lecture 34 - FE modelling of vehicle structure interactions
Link Finite Element method for vibration and Stability analyses Lecture 35 - Inverse response sensitivity analysis
Link Finite Element method for vibration and Stability analyses Lecture 36 - Inverse response sensitivity analysis (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 37 - Introduction and review of continuum mechanics
Link Finite Element method for vibration and Stability analyses Lecture 38 - Review of measures of strain and stress; balance laws
Link Finite Element method for vibration and Stability analyses Lecture 39 - Total and updated Lagrangian formulations
Link Finite Element method for vibration and Stability analyses Lecture 40 - Closure
Link NOC:Introduction to Engineering Seismology Lecture 1 - Introduction
Link NOC:Introduction to Engineering Seismology Lecture 2 - Earthquake hazard: Mitigation and preparedness
Link NOC:Introduction to Engineering Seismology Lecture 3 - Different Earthquake Hazards
Link NOC:Introduction to Engineering Seismology Lecture 4 - Different Earthquake Hazards (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 5 - Earthquake Terminologies
Link NOC:Introduction to Engineering Seismology Lecture 6 - Plate Tectonics
Link NOC:Introduction to Engineering Seismology Lecture 7 - Faults; Seismic Sources
Link NOC:Introduction to Engineering Seismology Lecture 8 - Types of Earthquakes; Causes of Earthquakes
Link NOC:Introduction to Engineering Seismology Lecture 9 - Introduction to Wave Propagation
Link NOC:Introduction to Engineering Seismology Lecture 10 - Seismic Wave propagation;
Link NOC:Introduction to Engineering Seismology Lecture 11 - Instrumentation to record Earthquake
Link NOC:Introduction to Engineering Seismology Lecture 12 - Seismic Sensors
Link NOC:Introduction to Engineering Seismology Lecture 13 - Seismic Instrumentation in India
Link NOC:Introduction to Engineering Seismology Lecture 14 - Seismic Instrumentation in India (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 15 - Intensity scales of Earthquake
Link NOC:Introduction to Engineering Seismology Lecture 16 - Road Damage Intensity Scale; and Seismic Vulnerability assessment
Link NOC:Introduction to Engineering Seismology Lecture 17 - Quantification of Earthquake (magnitude)
Link NOC:Introduction to Engineering Seismology Lecture 18 - Energy released due to earthquakes
Link NOC:Introduction to Engineering Seismology Lecture 19 - Interpretation of Earthquake records; Baseline correction
Link NOC:Introduction to Engineering Seismology Lecture 20 - Interpretation of Earthquake records (Continued...); Time Domain Parameters
Link NOC:Introduction to Engineering Seismology Lecture 21 - Time Domain Parameters (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 22 - Duration parameters; Duration Prediction Equations
Link NOC:Introduction to Engineering Seismology Lecture 23 - Frequency Domain Characteristics; Response Spectrum
Link NOC:Introduction to Engineering Seismology Lecture 24 - Fourier Spectrum
Link NOC:Introduction to Engineering Seismology Lecture 25 - Seismic Source Parameters;
Link NOC:Introduction to Engineering Seismology Lecture 26 - Time history; response Spectra (design); Stochastic models
Link NOC:Introduction to Engineering Seismology Lecture 27 - Ground Motion Simulation models
Link NOC:Introduction to Engineering Seismology Lecture 28 - Prediction Relationships
Link NOC:Introduction to Engineering Seismology Lecture 29 - Recapitulation - 1
Link NOC:Introduction to Engineering Seismology Lecture 30 - Recapitulation - 2
Link NOC:Introduction to Engineering Seismology Lecture 31 - Recapitulation - 3
Link NOC:Introduction to Engineering Seismology Lecture 32 - Recapitulation - 4
Link NOC:Introduction to Engineering Seismology Lecture 33 - Recapitulation - 5
Link NOC:Introduction to Engineering Seismology Lecture 34 - Recapitulation - 6
Link NOC:Introduction to Engineering Seismology Lecture 35 - Recapitulation - 7
Link NOC:Introduction to Engineering Seismology Lecture 36 - Recapitulation - 8
Link NOC:Introduction to Engineering Seismology Lecture 37 - Earthquake Prediction
Link NOC:Introduction to Engineering Seismology Lecture 38 - Earthquake prediction (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 39 - Seismic Gap
Link NOC:Introduction to Engineering Seismology Lecture 40 - Earthquake Prediction (some Precautions)
Link NOC:Introduction to Engineering Seismology Lecture 41 - Seismic zonation and microzonation
Link NOC:Introduction to Engineering Seismology Lecture 42 - Seismic zonation and microzonation (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 43 - Seismic microzonation of various Indian cities
Link NOC:Introduction to Engineering Seismology Lecture 44 - Seismic microzonation of various Indian cities (Continued...)
Link NOC:Introduction to Engineering Seismology Lecture 45 - Global Equation model
Link NOC:Introduction to Engineering Seismology Lecture 46 - Global Earthquake risk map
Link NOC:Introduction to Engineering Seismology Lecture 47 - Seismic Microzonation of Bangalore
Link NOC:Introduction to Engineering Seismology Lecture 48 - Seismic Microzonation of Bangalore
Link NOC:Introduction to Engineering Seismology Lecture 49 - Seismic zonation of India
Link NOC:Introduction to Engineering Seismology Lecture 50 - IS 1893 version 2002 and 2016 explained
Link NOC:Introduction to Engineering Seismology Lecture 51 - Zonation Map of India
Link NOC:Introduction to Engineering Seismology Lecture 52 - Seismicity of India : Some Past Earthquakes reported in India - 1
Link NOC:Introduction to Engineering Seismology Lecture 53 - Seismicity of India : Some Past Earthquakes reported in India - 2
Link NOC:Introduction to Engineering Seismology Lecture 54 - SeismoTectonics of India - 1
Link NOC:Introduction to Engineering Seismology Lecture 55 - SeismoTectonics of India - 2
Link NOC:Introduction to Engineering Seismology Lecture 56 - SeismoTectonics of India - 3
Link NOC:Introduction to Engineering Seismology Lecture 57 - Seismic Hazard Analysis - Introduction
Link NOC:Introduction to Engineering Seismology Lecture 58 - SHA (Continued...) - Seismic Study area and Seismotectonic Map
Link NOC:Introduction to Engineering Seismology Lecture 59 - SHA (Continued...) - Seismic Data Collection
Link NOC:Introduction to Engineering Seismology Lecture 60 - SHA (Continued...) - Maximum Magnitude Estimation
Link NOC:Introduction to Engineering Seismology Lecture 61 - SHA - Source and Source-Site Distance
Link NOC:Introduction to Engineering Seismology Lecture 62 - SHA - Prediction Equation for India
Link NOC:Introduction to Engineering Seismology Lecture 63 - SHA - Selection of GMPE
Link NOC:Introduction to Engineering Seismology Lecture 64 - SHA - Estimation of Hazard