5.60 Thermodynamics & Kinetics
5.60 Thermodynamics & Kinetics (Spring 2008, MIT OCW). Instructors: Prof. Keith A. Nelson and Prof. Moungi Bawendi. 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.
(from ocw.mit.edu )
Lecture 16 - Temperature, Pressure and Kp
VIDEO
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Lecture 01 - State of a System, 0th Law, Equation of State
Lecture 02 - Work, Heat, First Law
Lecture 03 - Internal Energy, Expansion Work
Lecture 04 - Enthalpy
Lecture 05 - Adiabatic Changes
Lecture 06 - Thermochemistry
Lecture 07 - Calorimetry
Lecture 08 - Second Law
Lecture 09 - Entropy and Clausius Inequality
Lecture 10 - Entropy and Irreversibility
Lecture 11 - Fundamental Equation, Absolute S, Third Law
Lecture 12 - Criteria for Spontaneous Change
Lecture 13 - Gibbs Free Energy
Lecture 14 - Multicomponent Systems, Chemical Potential
Lecture 15 - Chemical Equilibrium
Lecture 16 - Temperature, Pressure and Kp
Lecture 17 - Equilibrium: Application to Drug Design
Lecture 18 - Phase Equilibria - One Component
Lecture 19 - Clausius-Clapeyron Equation
Lecture 20 - Phase Equilibria - Two Components
Lecture 21 - Ideal Solutions
Lecture 22 - Non-ideal Solutions
Lecture 23 - Colligative Properties
Lecture 24 - Introduction to Statistical Mechanics
Lecture 25 - Partition Function (q) - Large N Limit
Lecture 26 - Partition Function (Q) - Many Particles
Lecture 27 - Statistical Mechanics and Discrete Energy Levels
Lecture 28 - Model Systems
Lecture 29 - Applications: Chemical and Phase Equilibria
Lecture 30 - Introduction to Reaction Kinetics
Lecture 31 - Complex Reactions and Mechanisms
Lecture 32 - Steady-state and Equilibrium Approximations
Lecture 33 - Chain Reactions
Lecture 34 - Temperature Dependence, Ea, Catalysis
Lecture 35 - Enzyme Catalysis
Lecture 36 - Autocatalysis and Oscillators