1 | Intro / Systems / Boundaries / First Law / types of E-flows |
2 | Conservation / U is a function / State Variables / Exact/Inexact Differentials |
3 | Rumford Experiment, Heat capacity |
4 | Examples Adiabatic reaction, Enthalpy, Second Law |
5 | Second Law, Entropy |
6 | Combined First and Second Law, Euler Relations, Equilibrium |
7 | Equilibrium, S max, U min, Interpretation of TD potentials, Nat. vars, Legendre |
8 | Math structure / Maxwell relations / How to do derivations |
9 | Maxwell + derivations, Entropy formulation |
10 | One component Clausius-Clapeyron |
11 | More Examples of Clausius Clapeyron, Solution Theory |
12 | Solutions Part II: PMQ, Activity, Gibbs Phase Rule |
13 | Properties of Mixtures, Equilibrium |
14 | EXAM 1 |
15 | Two-phase equilibrium, Intercept rule, Lever rule, Ideal Solutions |
16 | Electrochemical eq., Osmose + discussion exam |
17-25 | Statistical Mechanics |
26 | Binary Phase Diagrams and Advanced Solution Theory |
27 | EXAM 2 |
28 | Binary Phase Diagrams and review session |
29 | Binary Phase Diagrams and Advanced Solution Theory (continued) |
30 | Binary Phase Diagrams and Advanced Solution Theory (continued) |
31 | Binary Phase Diagrams and Advanced Solution Theory (continued) |
32 | Thermocalc |
33 | Thermocalc (continued) |
26 | Non-Equilibrium Aspects of Phase Diagrams / Start of Entropy Lectures |
34 | Energy and Entropy: Microscopic Origins and models |
35 | Statistical Mechanics of Real Systems: MC + MD |
36 | Polymer Mixtures |
37 | FINAL EXAM |