Definition of Heat Interaction and Thermodynamic Efficiencies - Lecture 5

Definition of Heat Interaction and Thermodynamic Efficiencies - Lecture 5

MIT OpenCourseWare via YouTube Direct link

- Partial Pressures and Chemical Potentials

24 of 27

24 of 27

- Partial Pressures and Chemical Potentials

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Definition of Heat Interaction and Thermodynamic Efficiencies - Lecture 5

Automatically move to the next video in the Classroom when playback concludes

  1. 1 - Introduction
  2. 2 - Review: a More Precise Clausius Inequality
  3. 3 - Types of Interactions Between System
  4. 4 - Definition of Work Interaction
  5. 5 - Definition of Non-Work Interaction
  6. 6 - Definition of Heat Interaction
  7. 7 - Our Definition of Heat versus Heat Transfer
  8. 8 - Steady State Heat Transfer Requires Nonequilibrium
  9. 9 - Energy and Entropy Exchanges Between Reservoirs
  10. 10 - Interposing a System Makes Reversibility Possible
  11. 11 - Heat Engine Between Two Thermal Reservoirs
  12. 12 - Refrigerator Between Two Thermal Reservoirs
  13. 13 - Heat Pump Between Two Thermal Reservoirs
  14. 14 - Measurements of Stable-Equilibrium Properties
  15. 15 - Thermometer
  16. 16 - Manometer
  17. 17 - Pressure vs Force per Unit Area
  18. 18 - Heat Capacities
  19. 19 - Enthalpy and Heat Capacity at Constant Pressure
  20. 20 - Heat Capacity at Constant Volume
  21. 21 - Equation of State
  22. 22 - Mayer Relation, Sound Speed, Etc
  23. 23 - Gibbs Free Energy and Chemical Potentials
  24. 24 - Partial Pressures and Chemical Potentials
  25. 25 - Summary of Properties
  26. 26 - Fundamental Relation from Measurements
  27. 27 - Changing Variables by Means of Legendre Transform

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.