Lectures
- 1. State of a system
- 2. Work, heat, first law
- 3. Internal energy, expansion work
- 4. Enthalpy
- 5. Adiabatic changes
- 6. Thermochemistry
- 7. Calorimetry
- 8. Second law
- 9. Entropy and the Clausius inequality
- 10. Entropy and irreversibility
- 11. Fundamental equation, absolute S, third law
- 12. Criteria for spontaneous change
- 13. Gibbs free energy
- 14. Multicomponent systems, chemical potential
- 15. Chemical equilibrium
- 16. Temperature, pressure and Kp
- 17. Equilibrium: application to drug design
- 18. Phase equilibria - one component
- 19. Clausius-Clapeyron equation
- 20. Phase equilibria - two components
- 21. Ideal solutions
- 22. Non-ideal solutions
- 23. Colligative properties
- 24. Introduction to statistical mechanics
- 25. Partition function (q) - large N limit
- 26. Partition function (Q) - many particles
- 27. Statistical mechanics and discrete energy levels
- 28. Model systems
- 29. Applications: chemical and phase equilibria
- 30. Introduction to reaction kinetics
- 31. Complex reactions and mechanisms
- 32. Steady-state and equilibrium approximations
- 33. Chain reactions
- 34. Temperature dependence, Ea, catalysis
- 35. Enzyme catalysis
- 36. Autocatalysis and oscillators
Chemical Thermodynamics & Kinetics - Lecture 36
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Lecture 36 - Autocatalysis and oscillators
Autocatalysis and oscillators
Moungi Bawendi, Keith Nelson
5.60 Thermodynamics & Kinetics, Spring 2008 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2009-03-01 License: Creative Commons BY-NC-SA |
