Modules / Lectures

Sl.No Chapter Name English
1Lecture 01 : Foundation of kinetic theory of gassesPDF unavailable
2Lecture 02 : Maxwell's law for speed distribution of gas moleculesPDF unavailable
3Lecture 03 : Average speeds in an ideal gas assemblyPDF unavailable
4Lecture 04 : Principle of equipartition of energyPDF unavailable
5Lecture 05 : Maxwell's law for energy distribution of gas moleculesPDF unavailable
6Lecture 06 : The mean free path of a gas assemblyPDF unavailable
7Lecture 07 : Expression for mean free pathPDF unavailable
8Lecture 08 : Experimental determination of mean free pathPDF unavailable
9Lecture 09 : Pressure an molecular flux from mean free pathPDF unavailable
10Lecture 10 : Problems on mean free pathPDF unavailable
11Lecture 11 : Transport in fluids: introductionPDF unavailable
12Lecture 12 : Viscosity: transport of momentumPDF unavailable
13Lecture 13 : Thermal conductivity: trasnport of thermal energyPDF unavailable
14Lecture 14 : Diffusion coefficient: transport of massPDF unavailable
15Lecture 15 : Molecular effusion: theory and applicationsPDF unavailable
16Lecture 16 : Brownian motion: concept, features, theory of fluctuationPDF unavailable
17Lecture 17 : Brownian motion: mean square displacement and vertical distribution of particlesPDF unavailable
18Lecture 18 : Perrin's experiment on Brownian motion - Part 1PDF unavailable
19Lecture 19 : Perrin's experiment on Brownian motion - Part 2PDF unavailable
20Lecture 20 : Problems on Brownian motion, Rotational brownian motionPDF unavailable
21Lecture 21 : Specific heat of solids: Dulong-Petit law and Einstein theoryPDF unavailable
22Lecture 22 : Limitaion of Einstein theory of specific heatPDF unavailable
23Lecture 23 : Debye theory of specific heatPDF unavailable
24Lecture 24 : Behavior of real gassesPDF unavailable
25Lecture 25 : Van der Waals equation of statePDF unavailable
26Lecture 26 : Critical parameters from Van der Waal's equationPDF unavailable
27Lecture 27 : Determination of Van der Waals' constants and Boyle temperaturePDF unavailable
28Lecture 28 : Other equations of statePDF unavailable
29Lecture 29 : Measurement of temperature: Celcius scale, ideal gas scale, absolute zeroPDF unavailable
30Lecture 30 : The platinum resistance thermometerPDF unavailable
31Lecture 31 : Basic concepts of classical thermodynamicsPDF unavailable
32Lecture 32 : Basic concepts of classical thermodynamics (continued)PDF unavailable
33Lecture 33 : First law of thermodynamicsPDF unavailable
34Lecture 34 : General description of work done and specific heatPDF unavailable
35Lecture 35 : General discussion on Heat conduction and elastic propertiesPDF unavailable
36Lecture 36 : Cyclic processesPDF unavailable
37Lecture 37 : The reversible heat engine: Carnot cyclePDF unavailable
38Lecture 38 : Refrigarator and Carnot TheoremPDF unavailable
39Lecture 39 : 2nd law and Clausius theoremPDF unavailable
40Lecture 40 : Concept of Entropy and mathematical form of 2nd lawPDF unavailable
41Lecture 41 : The entropy principlePDF unavailable
42Lecture 42 : Efficiency of a cycle from T-S diagramPDF unavailable
43Lecture 43 : The Otto cyclePDF unavailable
44Lecture 44 : The Diesel cyclePDF unavailable
45Lecture 45 : Entropy and available energyPDF unavailable
46Lecture 46 : Thermodynamic relationsPDF unavailable
47Lecture 47 : Application of thermodynamic relation...PDF unavailable
48Lecture 48 : The free energy functionsPDF unavailable
49Lecture 49 : Condition for thermodynamic equilibri...PDF unavailable
50Lecture 50 : Thermodynamics of chemical reactionPDF unavailable
51Lecture 51 : Equilibruim between phases: The Clapeyron equationPDF unavailable
52Lecture 52 : 1st order phase transion along liquid-vapor equilibriumPDF unavailable
53Lecture 53 : Phase diagram and triple pointPDF unavailable
54Lecture 54 : The 2nd latent heat equationPDF unavailable
55Lecture 55 : Gibbs phase rule and basics of second order phase transionPDF unavailable
56Lecture 56 : Basic concepts of radiationPDF unavailable
57Lecture 57 : Diffused radiation and Kirchhoff's lawPDF unavailable
58Lecture 58 : Cavity radiation as a thermodynamic system: Stefan-Boltzmann lawPDF unavailable
59Lecture 59 : Thermodynamics of cavity radiationPDF unavailable
60Lecture 60 : 3rd law of thermodynamicsPDF unavailable

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