16:52

Thermal Diffusivity | Thermal Resistivity | Its Significance | Heat Transfer | In Hindi | Lecture 2

18:20

Fresnel diffraction at straight edge | Diffraction at straight edge | In Hindi | Lecture 6

13:30

Conduction of heat | Thermal Conductivity | Heat Transfer | In Hindi | Lecture 1

21:11

Zone Plate | Principle and theory of zone plate | Diffraction of light | In Hindi | Lecture 5

17:41

Fresnel's half period zones | For Plane wave | Diffraction of light | Lecture 4

16:05

Derivation for the Energy of a Vibrating String | Vibration of string | In Hindi | Lecture 6

16:05

Standing wave | Stationary wave in strings | Concept & visualization | In Hindi | Lecture 5

09:53

Joule Thomson coefficient for ideal and Real Gas | JT Effect | In Hindi | Lecture 14

15:54

Joule Thomson Effect | J-T Coefficient | Inversion Temperature | In Hindi | Lecture 13

15:09

Struck string | Solution of wave equation | Stretched string |In Hindi | Lecture 4

15:41

Plucked String | Stretched String | Vibration of String | In Hindi | Lecture 3

10:29

Boyle Temperature | Critical constants | Derivation | Van der Waals equation |In Hindi, lecture 12

15:39

Van der Waals equation | for real gases | Equation of state | Real gas | In Hindi | Lecture 11

17:15

Real Gases | Introduction | Virial Coefficient | Boyle's Temperature | Critical Constants | L10

14:33

Solution of wave equation | For stretched string | Vibration of string | In Hindi | Lecture 2

15:24

Diffusion | Transport Phenomena | Coefficient of Diffusion | Derivation | In Hindi | Lecturer 9

13:08

Transport of energy | Transport Phenomena | Heat conduction | Thermal Conductivity | In Hindi | L8

08:33

Wave equation for a Stretched string | Derivation | Vibration of a Stretched string | In Hindi | L1

15:05

Viscosity | Transport Phenomena | Coefficient of viscosity | derivation | In Hindi | Lecture 7

14:12

Mean Free Path | Collison Probability | Derivation of the mean free path | In Hindi |KTG| Lecture 6

14:39

Principle of Equipartition of energy | Degree of freedom | Specific heats | In Hindi | Lecture 5

10:17

Experimental verification of Maxwell's Velocity distribution Law | Stern's experiment | In Hindi |L4

17:18

Most probable velocity | Mean Velocity | RMS Velocity | Derivation | Energy distribution | Lecture 3

21:02

Maxwell's velocity distribution law | Distribution of velocity | Derivation | In Hindi | Lecture 2

18:30

Kinetic theory of Gases | Assumption | Derivation of perfect gas equation | In Hindi | Lecture 1

17:27

second order phase transition | Derivation and significance of Ehrenfest equation | In Hindi | L 12

23:06

First order phase transition in Thermodynamics | Detailed explanation in Hindi | Lecture 11

14:11

Cooling by adiabatic Demagnetization | explained in Hindi | Work done in magnetization | Lecture 10

08:45

Clausius Clapeyron equation | Derivation using Maxwell Relation | Explanation In Hindi | Lecture 9

18:19

Joule experiment |Free adiabatic expansion of ideal gas |Adiabatic heating & Cooling | In Hindi| L#8

15:44

Energy Equations in thermodynamics | Derivation & Application | Explained in Hindi | Lecture 7

17:51

Cp-Cv relations in thermodynamics | Specific heats relations derivation | In Hindi | Lecture 6

18:16

TdS equations in thermodynamics | Derivation | In Hindi | Lecture 5

22:19

Maxwell's thermodynamic Relations | Derivation | Trick to remember | explained In Hindi | Lecture 4

21:51

Internal Energy | Enthalpy | Thermodynamic Potentials | In HIndi | Lecture 3

12:16

Gibbs Free Energy | In Hindi |Thermodynamics Potentials | Lecture 2

16:51

Helmholtz Free Energy | In Hindi | Thermodynamic Potential | Lecture 1

25:36

Fraunhofer diffraction due to double slit | In Hindi | Diffraction of light | Lecture 3

21:31

Fraunhofer Diffraction due to single slit in Hindi | Diffraction of Light | Lecture 2

14:34

Introduction to diffraction of Light | Diffraction of Light | In Hindi | Lecture 1

01:22

Gyanshree Physics Lecture : Welcome