Lecture 1
Black Body Radiation (PPT)
Black Body Radiation
Handout (6 slides per page)
Lecture 2
The Photoelectric Effect and the Wave Equation (PPT)
The Photoelectric Effect and the Wave Equation
Lecture 3
Absorption by Atoms, The Schrodinger Equation (PPT)
Absorption by Atoms, The Schrodinger Equation
Lecture 4
Quantum Mechanical Principles Applied to Spectroscopy (PPT)
Quantum Mechanical Principles Applied to Spectroscopy
Lecture 5
Electronic Absorption Spectroscopy (PPT)
Electronic Absorption Spectroscopy
Lecture 6
The Particle in a Box (PPT)
The Particle in a Box
Lecture 7
Rotational Spectroscopy (PPT)
Rotational Spectroscopy
Lecture 8
Fluorescence Spectroscopy and Applications (PPT)
Fluorescence Spectroscopy and Applications
Lecture 9
The Ideal Gas Law, Kinetic Theory of Gases (PPT)
The Ideal Gas Law, Kinetic Theory of Gases
Lecture 9 Continued
Isotherms and Problems
Lecture 10
Imperfect Gases (PPT)
Imperfect Gases
PDF 6 slides per page
Lecture 11
The First Law of Thermodynamics (PPT)
The First Law of Thermodynamics
Lecture 12
Path Functions and State Functions (PPT)
Path Functions and State Functions
First Midterm Exam
Lecture 13
Enthalpy: A New State Function (PPT)
Enthalpy: A New State Function
Lecture 14
The Second Law of Thermodynamics (PPT)
The Second Law of Thermodynamics
Lecture 15
Applications of the Second Law (PPT)
Applications of the Second Law
Lecture 16
The Third Law (PPT)
The Third Law
Lecture 17
Gibbs Free Energy Function (PPT)
Gibbs Free Energy Function
Review Questions
Lecture 18
T and P Dependence of Gibbs Energy Function (PPT)
T and P Dependence of Gibbs Energy Function
Lecture 19
Applications of Free Energy (PPT)
Applications of Free Energy
Lecture 20
Phase Diagrams (PPT)
Phase Diagrams
First Law Review
Second Law Review
Enthalpy Example: Glycine Metabolism
Second Mid-term
Lecture 21
Properties of Mixtures (PPT)
Properties of Mixtures
Lecture 22
Colligative Properties (PPT)
Colligative Properties
Lecture 23
Lipids and Membranes (PPT)
Lipids and Membranes
Lecture 24
Myoglobin and Hemoglobin (PPT)
Myoglobin and Hemoglobin
Lecture 25
Transport Properties (PPT)
Transport Properties
Lecture 26
First Order Kinetics(PPT)
First Order Kinetics
Lecture 27
Steady State Approximation (PPT)
Steady State Approximation
Lecture 28
Biological Examples (PPT)
Biological Examples
Lecture 29
Catalysis (PPT)
Catalysis
Lecture 30
Second Order Kinetics, Michaelis-Menten (PPT)
Second Order Kinetics, Michaelis-Menten
Lecture 31
The Physical Chemistry of Vision (PPT)
The Physical Chemistry of Vision