Lecture 1

Black Body Radiation. Wave equation.

Lecture 2

Energy levels and electromagnetic radiation.

Lecture 3

Vibrational and rotational spectroscopy.

Lecture 4

Absorption in the Atmosphere. MO diagrams.

Lecture 5

Fluorescence spectroscopy and applications.

Lecture 6

Ideal gas law.

Lecture 7

First law of thermodynamics.

Review Notes

Example: Glycine

Lecture 8

Enthalpy.

Lecture 9

Entropy.

Lecture 10

The third law.

Lecture 11

Free energy functions.

Study Guide

Lecture 12

Biological applications.

Lecture 13

Phase transitions.

Lecture 14

Mixtures. Raoult's and Henry's law.

Lecture 15

Non-ideal Solutions.

Lecture 16

Colligative properties.

Lecture 17

Membranes.

Lecture 18

Transport properties.

Lecture 19

Introduction to Kinetics

Lecture 20

Steady State Approximation

Lecture 21

Arrhenius Equation

Lecture 23

Second order kinetics

Lecture 24

Biological Applications: Photosynthesis

Lecture 25

Biological Applications

Lecture 26

Biological Applications

Lecture 27

Biological Applications