Physical Chemistry 433 Lectures

Lecture 1

The ideal gas law

Lecture 2

Properties of Gases

Lecture 3

Imperfect Gases

Deeper Look at Imperfect Gases

Lecture 4

Statistical Thermodynamics

Lecture 5

The First Law

Lecture 6

Heat Capacity

Lecture 7

Enthalpy

Lecture 8

Implications of the Enthalpy State Function

Lecture 9

The Second Law: Definition of Entropy

Lecture 11

Second Law Applications

Lecture 12

The Third Law

Lecture 13

Free Energy Functions

Lecture 14

Gibbs Free Energy

Chemical Equilibrium

Lecture 15

Applications of Free Energy

Lecture 16

Applications of Binding Equilibria

Lecture 17

Maxwell Relations

Lecture 18

Phase Equilibria

Lecture 20

Colligative Properties

Lecture 21

Two Component Systems

Lecture 22

Non-ideal Behavior in Solution

Debye Huckel Theory

Lecture 23

The Physical Chemsitry of Surfaces

Lecture 24

CO2 Equilibria

Lecture 25

Introduction to Kinetics

Lecture 26

First Order Kinetics and Stead State Approx.

Lecture 27

Transition State Theory

Lecture 28

Second Order Kinetics

Lecture 29

Example: Myoglobin

Lecture 30

Catalysis and Enzyme Kinetics

Lecture 31

Micro Equilibrium

Stirling

Lectures to Print

The ideal gas law

Properties of Gases

Imperfect Gases

Statistical Thermodynamics

The First Law

Heat Capacity

Enthalpy

Implications of the Enthalpy State Function

The Second Law: Definition of Entropy

Second Law Applications

The Third Law

Free Energy Functions

Gibbs_Energy

Applications of Free Energy

Applications of Binding Equilibria

Maxwell Relations

Phase Equilibria

Colligative Properties

Two Component Systems

Non-ideal Behavior in Solution

The Physical Chemsitry of Surfaces

CO2 Equilibria

Introduction to Kinetics