Thermodynamics and Kinetics Pdf video

Thermodynamics & Kinetics

Spring 2008

Interaction between a reversible engine (A) and a reversible ideal gas Carnot cycle (B). (Illustration courtesy of MIT OpenCourseWare.)

Course Description

This subject deals primarily with equilibrium properties of macroscopic systems, basic thermodynamics, chemical equilibrium of reactions in gas and solution phase, and rates of chemical reactions.

Acknowledgements

The material for 5.60 has evolved over a period of many years, and therefore several faculty members have contributed to the development of the course contents. The following are known to have assisted in preparing the lecture notes available on OpenCourseWare:

Emeritus Professors of Chemistry: Robert A. Alberty, Carl W. Garland, Irwin Oppenheim, John S. Waugh.

Professors of Chemistry: Moungi Bawendi, John M. Deutch, Robert W. Field, Robert G. Griffin, Keith A. Nelson, Robert J. Silbey, Jeffrey I. Steinfeld.

Professor of Bioengineering and Computer Science: Bruce Tidor.

Professor of Chemistry, Rice University: James L. Kinsey.

Professor of Physics, University of Illinois: Philip W. Phillips.

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Lecture Notes

The lecture handouts are available in the table below. Please note that there were no lecture notes for session #36.

SES #	TOPICS	LECTURE NOTES
1	State of a system, 0th law, equation of state	(PDF)
2	Work, heat, first law	(PDF)
3	Internal energy, expansion work	(PDF)
4	Enthalpy	(PDF)
5	Adiabatic changes	(PDF)
6	Thermochemistry	(PDF)
7	Calorimetry	(PDF)
8	Second law	(PDF)
9	Entropy and the Clausius inequality	(PDF)
10	Entropy and irreversibility	(PDF)
11	Fundamental equation, absolute S, third law	(PDF)
12	Criteria for spontaneous change	(PDF)
13	Gibbs free energy	(PDF)
14	Multicomponent systems, chemical potential	(PDF)
15	Chemical equilibrium	(PDF)
16	Temperature, pressure and Kp	(PDF)
17	Equilibrium: application to drug design	(PDF)
18	Phase equilibria — one component	(PDF)
19	Clausius-Clapeyron equation	(PDF)
20	Phase equilibria — two components	(PDF)
21	Ideal solutions	(PDF)
22	Non-ideal solutions	(PDF)
23	Colligative properties	(PDF)
24	Introduction to statistical mechanics	(PDF)
25	Partition function (q) — large N limit	(PDF)
26	Partition function (Q) — many particles	(PDF)
27	Statistical mechanics and discrete energy levels
28	Model systems	(PDF)
29	Applications: chemical and phase equilibria	(PDF)
30	Introduction to reaction kinetics	(PDF)
31	Complex reactions and mechanisms	(PDF)
32	Steady-state and equilibrium approximations	(PDF)
33	Chain reactions	(PDF)
34	Temperature dependence, Ea, catalysis	(PDF)
35	Enzyme catalysis	(PDF)
36	Autocatalysis and oscillators

Video Lectures

Special software is required to use some of the files in this section: .mp4.

SES #	TOPICS
1	State of a system, 0th law, equation of state
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