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Thermodynamics - Classical to Statistical

Thermodynamics - Classical to Statistical

NPTEL IIT Guwahati via YouTube Direct link

Thermodynamics: classical to statistical [Introduction Video]

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Thermodynamics: classical to statistical [Introduction Video]

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Thermodynamics - Classical to Statistical

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  1. 1 Thermodynamics: classical to statistical [Introduction Video]
  2. 2 Lec 01: Concepts of Heat and Work [First Law of Thermodynamics]
  3. 3 Lec 02: Concepts of Enthalpy and Heat Capacity
  4. 4 Lec 03: Introduction to Entropy
  5. 5 Lec 04: Calculation of entropy for various processes
  6. 6 Lec 05: Gibbs and Helmholtz free energy
  7. 7 Lec 06: Introduction to chemical potential
  8. 8 Lec 07: Clapeyron equation and phase transition; concept of fugacity
  9. 9 Lec 08:Calculation of fugacity; free energy of mixing
  10. 10 Lec 09: Partial molar quantities; excess thermodynamic quantities
  11. 11 Lec 10: Concept of activity and activity coefficients; Debye-Huckel limiting law
  12. 12 Lec 11: Phase Diagram of one component systems
  13. 13 Lec 12: Phase Diagram of two component systems
  14. 14 Lec 13: Phase Diagram of three component system; one dimensional random walk
  15. 15 Lec 14: Macroscopic and microscopic states; Boltzmann distribution; Canonical partition function
  16. 16 Lec 15: Calculation of different thermodynamical quantities using canonical partition function
  17. 17 Lec 16: Introduction to molecular partition function
  18. 18 Lec 17: Translational, electronic and nuclear partition function
  19. 19 Lec 18: Rotational partition function
  20. 20 Lec 19: Vibrational partitition function; Introduction to grand canonical ensemble
  21. 21 Lec 20: Grand canonical distribution; Introduction to microcanonical ensemble
  22. 22 Lec 21: Problems on classical thermodynamics-1
  23. 23 Lec 22: Problems on classical thermodynamics-2
  24. 24 Lec 23: Problems on statistical thermodynamics-1
  25. 25 Lec 24: Problems on statistical thermodynamics-2
  26. 26 Lec 25: Problems on statistical thermodynamics-3
  27. 27 Lec 26: Fermi-Dirac and Bose-Einstein statistics
  28. 28 Lec 27: Ideal Fermi Gas
  29. 29 Lec 28: Ideal Bose gas; Introduction to Bose-Einstein condensation
  30. 30 Lec 29: Bose-Einstein Condensation
  31. 31 Lec 30: Nuclear spin statistics; Ortho- and para-hydrogens
  32. 32 Lec 31: Specific Heats of Solids
  33. 33 Lec 32: Problems on statistical thermodynamics-4
  34. 34 Lec 33: Advance problems-1
  35. 35 Lec 34: Advance Problems-2
  36. 36 Lec 35: Advance Problems-3
  37. 37 Lec 36: Advance Problems-4
  38. 38 Lec 37: Advance Problems-5

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