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  1. 1 | Lecture 1: Introduction to Thermodynamics 00:52:51
  2. 2 | Supplemental Video: Sodium Acetate Demo 00:02:12
  3. 3 | Lecture 2: Scope and Use of Thermodynamics 00:48:41
  4. 4 | Lecture 3: Process Variables and the First Law 00:43:30
  5. 5 | Lecture 4: Heat Engines and Energy Conversion Efficiency 00:46:21
  6. 6 | Lecture 5: Second Law and Entropy Maximization 00:44:34
  7. 7 | Lecture 6: Thermodynamic Potentials 00:49:58
  8. 8 | Lecture 7: Ideal Gas Processes 00:46:23
  9. 9 | Lecture 8: Mathematical Implications of Equilibrium and Spontaneous Processes 00:44:30
  10. 10 | Lecture 9: Case Studies - Specific Heats and Phase Transformations 00:49:14
  11. 11 | Lecture 10: Introduction to Unary Phase Transformations 00:48:34
  12. 12 | Lecture 11: Phase Coexistence in Unary Systems 00:46:09
  13. 13 | Supplemental Video: The Three Dees of Thermodynamics 00:11:43
  14. 14 | Lecture 12: Case Studies - Saturation Vapor Pressure 00:39:55
  15. 15 | Lecture 13: Introduction to Ideal (Gas) Mixtures 00:49:57
  16. 16 | Lecture 14: Reacting Gas Mixtures at Equilibrium 00:47:40
  17. 17 | Lecture 15: Introduction to Solutions, General Case 00:50:10
  18. 18 | Supplemental Video: The Lever Rule 00:09:20
  19. 19 | Lecture 16: Partial Molar Properties 00:41:46
  20. 20 | Lecture 17: Solution Models - Ideal, Dilute, and Regular 00:44:41
  21. 21 | Lecture 18: Case Study in Reacting Gas Mixtures - Introducing the Nernst Equation 00:48:22
  22. 22 | Lecture 19: Regular Solution Models and Stability 00:50:19
  23. 23 | Lecture 20: Introduction to Binary Phase Diagrams 00:46:41
  24. 24 | Lecture 21: Phase Coexistence and Separation 00:41:48
  25. 25 | Lecture 22: Free Energy-Composition Diagrams, General Case 00:42:54
  26. 26 | Lecture 23: Building Binary Phase Diagrams, Part I 00:46:50
  27. 27 | Supplemental Video: Gallium-Indium Eutectic Demo 00:03:30
  28. 28 | Lecture 24: Building Binary Phase Diagrams, Part II 00:39:41
  29. 29 | Lecture 25: Building Binary Phase Diagrams, Part III 00:50:45
  30. 30 | Lecture 26: CALPHAD - Case Studies and Guest Lecture 00:53:45
  31. 31 | Lecture 27: Introduction to Statistical Thermodynamics 00:52:06
  32. 32 | Lecture 28: Boltzmann Hypothesis 00:44:00
  33. 33 | Lecture 29: Boltzmann Distribution 00:49:35
  34. 34 | Lecture 30: Intermediate Phases and Reactions 00:48:51
  35. 35 | Lecture 31: Reacting Multi-phase Systems 00:49:06
  36. 36 | Lecture 32: Case Study - Reacting, Multi-component, Multi-phase Systems 00:41:15
  37. 37 | Supplemental Video: Ternary Phase Diagram and Ouzo Demo 00:34:40
  38. 38 | Supplemental Video: Ouzo Demo 00:02:36
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    Youtube

    29-07-2024
    MIT 3.020 Thermodynamics of Materials, Spring 2021

    Instructor: Rafael Jaramillo
    View the complete course: https://ocw.mit.edu/courses/3-020-thermodynamics-of-materials-spring-2021/
    YouTube Playlist: https://www.youtube.com/playlist?listPLUl4u3cNGP61g-yRbJz4ghFPJLiok1HxX
    Note that Lecture 33, and the discussion class sessions were not recorded.
    This course introduces the competition between energetics and disorder that underpins materials thermodynamics. Classical thermodynamic concepts are presented in the context of phase equilibria, including phase transformations, phase diagrams, and chemical reactions.
    License: Creative Commons BY-NC-SA
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