Lecture 1 - Introduction
Lecture 2 - Fundamentals of Thermal and Cold Plasma
Lecture 3 - Theory and Applications in Thermal and Cold Plasma
Lecture 4 - Theory and Applications in Thermal and Cold Plasma
Lecture 5 - Saha Ionization Equation and That Follows
Lecture 6 - Tutorial-1: Theory and Applications in Thermal and Cold Plasma
Lecture 7 - Plasma Screening
Lecture 8 - Propagation of EM Waves in Plasma
Lecture 9 - Further Details on The Basics of EM Waves in Plasma
Lecture 10 - Collisions in Plasma: Plasma Temperature and Equilibria
Lecture 11 - Tutorial-2: Plasma Physics Fundamentals
Lecture 12 - Large Angle and Small Angle Scattering in Plasma
Lecture 13 - Small Angle Scattering in Plasma
Lecture 14 - Ambipolar Diffusion in Plasma
Lecture 15 - Description of Plasma Kinetics: Orbit Theory, Kinetic Theory and Fluid Model
Lecture 16 - Tutorial-3: Understanding Ionization, Gas Behavior, and Maxwell-Boltzmann Distribution
Lecture 17 - Description of Plasma Kinetics: Orbit Theory
Lecture 18 - Description of Plasma Kinetics: Orbit Theory-Plasma Confinement
Lecture 19 - Description of Plasma Kinetics: Plasma Kinetic Theory
Lecture 20 - Description of Plasma Kinetics: Electrostatic Waves in Plasma
Lecture 21 - Review of Key Concepts: Week 1-3 - Part A
Lecture 22 - Review of Key Concepts: Week 1-3 - Part B
Lecture 23 - Tutorial-4: Gas Ionization and Breakdown Mechanisms
Lecture 24 - Description of Plasma Kinetics: Langmuir Wave
Lecture 25 - Plasma Fluid Model
Lecture 26 - Some More Insights on High Frequency Electrostatic Waves in Plasma
Lecture 27 - Further Insights into Dispersion Relation
Lecture 28 - Tutorial-5: Plasma Kinetics, Thermodynamics and Excitation in Plasma
Lecture 29 - First Order Moment of Plasma Kinetic Equation
Lecture 30 - Generalized Ohms Law
Lecture 31 - Expression for Generalized Ohms Law and Reduction to Ordinary Ohm’s Law
Lecture 32 - Energy Conservation Equation
Lecture 33 - Tutorial-6: Plasma Devices, Characteristics and Plasma Parameters
Lecture 34 - Energy Conservation Equation: Solution technique
Lecture 35 - Navier Stokes Equation in Plasma
Lecture 36 - Numerical Solution of Fluid Equations: Thermodynamic and transport properties, an example
Lecture 37 - Finding Solution of Fluid Equations in a Plasma Torch: example of N2-O2 plasma
Lecture 38 - Tutorial-7: Thermodynamic and Transport Properties in Plasma
Lecture 39 - Review of Key Concepts: Week 4-6 - Part A
Lecture 40 - Review of Key Concepts: Week 4-6 - Part B
Lecture 41 - Actual Solutions of Fluid Equations in a Plasma Torch
Lecture 42 - Understanding the Solution of Fluid Equations in a Plasma Torch
Lecture 43 - Understanding the Solution Results and Designing a Plasma Torch
Lecture 44 - Designing Plasma Torches with Desired Electrothermal Efficiency and Jet Characteristics
Lecture 45 - Tutorial-8: RF and Cold Plasma Devices
Lecture 46 - Features of Plasma Jets in Practice
Lecture 47 - Plasma Production
Lecture 48 - Paschen Break Down Criteria
Lecture 49 - AC Breakdown
Lecture 50 - Tutorial-9: Plasma Thermodynamics and Radiation equilibrium
Lecture 51 - Review of Key Concepts: Week 7-9 - Part A
Lecture 52 - Review of Key Concepts: Week 7-9 - Part B
Lecture 53 - Plasma Sources
Lecture 54 - Typical Configuration of Arc Devices and Special Features
Lecture 55 - Plasma Power Supplies: Steady and Unsteady Operating Points, RF Thermal Plasma Sources
Lecture 56 - RF plasma-Thermal Plasma Sources
Lecture 57 - Non-Thermal Plasma Sources: Atmospheric pressure plasma jets (APPJ)
Lecture 58 - Tutorial-10: Advanced Plasma Diagnostics
Lecture 59 - Non-Thermal Plasma Sources: ECR Plasma and Plasma Sheath
Lecture 60 - Plasma Sheath-mathematical modelling
Lecture 61 - Plasma Diagnostics
Lecture 62 - Boltzmann Plot Technique
Lecture 63 - Plasma Diagnosis: Finding number density
Lecture 64 - Tutorial-11: Plasma Technology for Renewable Energy and Environment
Lecture 65 - Plasma Diagnosis: Langmuir Probe Principles
Lecture 66 - Plasma Application
Lecture 67 - Plasma Application: Waste Management Capacity, Efficacy and Empowerment, thermal plasma for material testing under extreme conditions
Lecture 68 - Atmospheric Pressure Plasma Spray (APS), Plasma Metallurgy and Novel Materials
Lecture 69 - Plasma Medicine and Plasma in Agriculture
Lecture 70 - Tutorial-12: Plasma Technology for Industrial Applications: Options, Efficacy and Benefits
Lecture 71 - Review of Key Concepts: Week 10-12 - Part A
Lecture 72 - Review of Key Concepts: Week 10-12 - Part B
