Monday, September 30: Lecture 2.1: 

Introduction to Energy

Enthalpy

Wednesday, October 2: Lecture 2.2: 

Determining ΔH_rxn I: Calorimetry

Friday, October 4: Lecture 2.3: 

Determining ΔH_rxn II: Hess’s Law

Determining ΔH_rxn III: ΔH°_f

Monday, October 7: Lecture 2.4: 

Introduction to Entropy

Wednesday, October 9: Lecture 2.5: 

Entropy, Probability, and Microstates

Friday, October 11: Lecture 2.6: 

Entropy of Physical and Chemical Changes

Introduction to Sections 9.3 and 10.2

Monday, October 14: Lecture 2.7: 

Heat Capacities of an Ideal gas at Different Conditions

Heating a Gas and Changes in Enthalpy and Energy

Discussion of Example 9.2

Wednesday, October 16: Lecture 2.8: 

Expansion and Compression of an Ideal Gas I: Qualitative ΔS

Expansion and Compression of an Ideal Gas II: Quantitative ΔS

Friday, October 18: Lecture 2.9: 

Reversible Processes

Determining Boiling and Melting Points

Monday, October 21: Lecture 2.10: 

Introduction to Free Energy

Free Energy and Equilibrium: A Qualitative Discussion

Wednesday, October 23: Lecture 2.11: 

Free Energy and the Equilibrium Constant

Determining ΔG

Temperature Dependence of the Equilibrium Constant

Friday, October 25: Lecture 2.12: 

Determining K_sp of AgCl with Thermodynamic Data

Free Energy and Maximum Useful Work