1. Meaning of Temperature and Heat
2. First Law of Thermodynamics
3. Compression Work
4. Ideal Gas Law
5. Adiabatic Processes
6. Heat Capacity
7. Enthalpy
8. Einstein Solid 1
9. Einstein Solid 2
10. Einstein Solid 3
11. Stirling's Approximation Derivation
12. Binomial Theorem Derivation
13. Taylor MacLaurin Expansion Introduction
14. Taylor MacLaurin (1+x)^n
15. Taylor Expansion Cos(x)
16. Taylor Expansion Exp(x)
17. Taylor Expansion ln(1+x)
18. Multiplicity of an Ideal Gas
19. Gamma Function 1/2
20. Gamma Function 2/2
21. Einstein Solid 4 Multiplicity
22. Einstein Solid 5 Sharpness of Multiplicity
23. Second Law of Thermodynamics
24. Entropy
25. Entropy and Temperature
26. Entropy Vs Energy Graph
27. Predicting Heat Capacities
28. Third Law of Thermodynamics
29. Third Law of Thermodynamics 2/2
30. Two State Paramagnet 1/2
31. Two State Paramagnet 2/2
32. Mechanical Equilibrium and Ideal Gas Law
33. Thermodynamic Identity 1/2
34. Thermodynamic Identities 2/2
35. Gibbs Helmholtz Free Energies
36. Chemical Potential
37. Gibbs Helmholtz Thermodynamic Identities
38. Free Energy and Equilibrium
39. Extensive and Intensive Quantities
40. Chemical Potential and Gibbs Free Energy
41. Chemical Potential of an Ideal Gas
42. Phase Transformation for Pure Substances
43. Clausius Clapeyron Relation
44. Van Der Waals 1/2
45. Van Der Waals 2/2
46. Joule Thompson Throttling / Adiabatic Cooling
47. Maxwell Construction

In this video tutorial series, thermodynamics and statistical mechanics are introduced. It's pitched at undergraduate level and while it is mainly aimed at physics majors, it should be useful to anybody taking a first course in thermodynamics, such as engineers.

The course covers topics such as the Ideal Gas Law, Entropy, Enthalpy, Gibbs' and Helmholtz' Free Energy, Heat Capacity, Einstein Solids, Taylor and MacLaurin Series / Expansions, phase transformations, thermodynamics identities, the Clausius Clapeyron Relation, Joule Thompson Throttling, Adiabatic Cooling, the paramagnet and of course the all important Laws of Thermodynamics.

Thank you for watching and I hope that this matches your requirements. Please feel free to provide feedback via comments and share with your friends.

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