30:39
Week 12 : Review of Key Concepts: Week 10-12 (Part-B)
NPTEL IIT Bombay
29:42
Week 12 : Review of Key Concepts: Week 10-12 (Part-A)
21:43
Week 12 : Tutorial-12: Plasma Technology for Industrial Applications: Options, Efficacy & Benefits
30:06
Week 12 : Lecture 26A: Plasma Medicine & Plasma in Agriculture
29:44
Week 12 : Lecture 25B: Atmospheric Pressure Plasma Spray (APS), Plasma Metallurgy & Novel Materials
30:49
Week 12 : Lecture 25A: Plasma Application: Waste Management Capacity, Efficacy & Empowerment,...
32:37
Week 12 : Lecture 24B: Plasma Application
29:48
Week 12 : Lecture 24A: Plasma Diagnosis: Langmuir Probe Principles
26:44
Week 11 : Tutorial-11: Plasma Technology for Renewable Energy and Environment
32:16
Week 11 : Lecture 23B: Plasma Diagnosis: Finding number density
30:27
Week 11 : Lecture 23A: Boltzmann Plot Technique
32:35
Week 11 : Lecture 22B: Plasma Diagnostics
31:58
Week 11 : Lecture 22A: Plasma Sheath-mathematical modelling
29:47
Week 11 : Lecture 21B: Non-Thermal Plasma Sources: ECR Plasma & Plasma Sheath
30:12
Week 10 : Tutorial-10: Advanced Plasma Diagnostics
28:59
Week 10 : Lecture 21A: Non-Thermal Plasma Sources: Atmospheric pressure plasma jets (APPJ)
30:59
Week 10 : Lecture 20B: RF plasma-Thermal Plasma Sources
30:00
Wk10: Lec 20A: Plasma Power Supplies: Steady & Unsteady Operating Points, RF Thermal Plasma Sources
30:02
Week 10 : Lecture19B: Typical Configuration of Arc Devices & Special Features
30:41
Week 10 : Lecture 19A: Plasma Sources
30:21
Week 9 : Lecture 17A: Features of Plasma Jets in Practice
29:57
Week 9 : Lecture 17B: Plasma Production
Week 9 : Lecture 18A: Paschen Break Down Criteria
31:11
Week 9 : Lecture 18B: AC Breakdown
22:21
Week 9 : Tutorial-9: Plasma Thermodynamics and Radiation equilibrium
Week 9 : Review of Key Concepts: Week 7-9 (Part-A)
26:22
Week 9 : Review of Key Concepts: Week 7-9 (Part-B)
23:33
Week 8 : Tutorial-8: RF and Cold Plasma Devices
30:30
W8-Lecture 16B:Designing Plasma Torches with Desired Electrothermal Efficiency & Jet Characteristics
29:56
Week 8 : Lecture 16A: Understanding the Solution Results & Designing a Plasma Torch
30:23
Week 8 : Lecture 15B: Understanding the Solution of Fluid Equations in a Plasma Torch
30:09
Week 8 : Lecture 15A: Actual Solutions of Fluid Equations in a Plasma Torch
30:14
Week 7 : Review of Key Concepts: Week 4-6 (Part-B)
Week 7 : Review of Key Concepts: Week 4-6 (Part-A)
25:36
Week 7 : Tutorial-7: Thermodynamic & Transport Properties in Plasma
30:34
Week 7 : Lecture 14B: Finding Solution of Fluid Equations in a Plasma Torch: example of N2-O2 plasma
31:42
W7:Lecture 14A:Numerical Solution of Fluid Equations:Thermodynamic& transport properties,an example
31:36
Week 7 : Lecture 13B: Navier Stokes Equation in Plasma
30:33
Week 7 : Lecture 13A: Energy Conservation Equation: Solution technique
22:04
Week 6 : Tutorial-6: Plasma Devices, Characteristics & Plasma Parameters
30:54
Week 6 : Lecture 12B: Energy Conservation Equation
29:58
Week 6 : Lecture 12A: Expression for Generalized Ohms Law & Reduction to Ordinary Ohm’s Law
30:08
Week 6 : Lecture 11B: Generalized Ohms Law
32:26
Week 6 : Lecture 11A: First Order Moment of Plasma Kinetic Equation
Week 5 : Tutorial-5: Plasma Kinetics, Thermodynamics & Excitation in Plasma
30:57
Week 5 : Lecture 10B: Further Insights into Dispersion Relation
29:53
Week 5 : Lecture 10A: Some More Insights on High Frequency Electrostatic Waves in Plasma
31:15
Week 5 : Lecture 9B: Plasma Fluid Model
Week 5 : Lecture 9A: Description of Plasma Kinetics: Langmuir Wave
36:08
Review of Key Concepts: Week 1-3 (Part-B)
29:17
Review of Key Concepts: Week 1-3 (Part-A)
25:53
Week 4 : Tutorial-4: Gas Ionization and Breakdown Mechanisms
29:41
Week 4 : Lecture 8B: Description of Plasma Kinetics: Electrostatic Waves in Plasma
30:38
Week 4 : Lecture 8A: Description of Plasma Kinetics: Plasma Kinetic Theory
30:26
Week 4 : Lecture 7B: Description of Plasma Kinetics: Orbit Theory-Plasma Confinement
Week 4 : Lecture 7A: Description of Plasma Kinetics: Orbit Theory
30:20
Week 3 : Lecture 5A: Large Angle & Small Angle Scattering in Plasma
31:41
Week 3 : Lecture 5B: Small Angle Scattering in Plasma
Week 3 : Lecture 6B: Description of Plasma Kinetics: Orbit Theory, Kinetic Theory & Fluid Model
Week 3 : Lecture 6A: Ambipolar Diffusion in Plasma
26:02
Week 3 : Tutorial-3: Understanding Ionization, Gas Behavior, and Maxwell-Boltzmann Distribution
27:19
Week 2 : Tutorial-2: Plasma Physics Fundamentals
Week 2 : Lecture 4B: Collisions in Plasma: Plasma Temperature & Equilibria
30:48
Week 2 : Lecture 4A: Further Details on The Basics of EM Waves in Plasma
30:37
Week 2 : Lecture 3B: Propagation of EM Waves in Plasma:
Week 2 : Lecture 3A: Plasma Screening
Week 1 : Lecture 0 : Introduction
39:55
Week 1 : Lecture 1A: Fundamentals of Thermal and Cold Plasma
Week 1 : Lecture 1B: Theory and Applications in Thermal and Cold Plasma
Week 1 : Lecture 2A: Theory and Applications in Thermal and Cold Plasma
29:19
Week 1: Lecture 2B: Saha Ionization Equation & That Follows
Week 1 : Tutorial-1: Theory and Applications in Thermal and Cold Plasma
3:40
Course Introduction - Theory and Applications in Thermal and Cold Plasma
LIVE
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