| LEC # | TOPICS | LECTURE NOTES |
|---|---|---|
| Part I: Solution properties of silicate minerals | ||
| 1 | Ideal solutions | (PDF 1) (PDF 2) |
| 2 | Non-ideal solutions | (PDF) |
| 3 | Alkali and plagioclase feldspars solution models | (PDF) |
| 4 | Alkali and plagioclase feldspars solution models (cont.) | (PDF 1) |
| 5 | Introduction to pyroxene thermometry Diopside - Enstatite | See Lec #4 |
| 6 | Thermodynamic properties of multi-site mineral solutions - Homogeneous equilibria | (PDF) |
| 7 | Pyroxene thermometry II, the quad | (PDF) |
| 8-9 | Spinels, rhombohedral oxides and T-ƒO2 relations | |
| Part II: Heterogeneous equilibria in geologic systems | ||
| 10 | Heterogeneous equilibria in two - and three-component systems | (PDF)# |
| 11 | Liquidus diagrams - Liquidus boundaries | (PDF)# |
| 12 | Liquidus diagrams - Degeneracies and natural examples | (PDF)# |
| 13 | Liquidus diagrams - Thermodynamic controls on boundaries | (PDF)# |
| 14 | Schreinemaker's analysis - Multi-component systems | (PDF)# |
| 15 | Choosing components - Representations of composition space | (PDF 1)# (PDF 2)# |
| 16 | Heterogeneous reactions - The Gibbs method | (PDF)# |
| 17 | Solution models for silicate melts-simple systems | |
| 18 | Solution models for silicate melts-multicomponent systems | |
| 19 | Thermodynamic models of multicomponent systems - MELTS | |
| 20 | Mixed volatile equilibria P-T-XCO2-XH2O | |