Difference between revisions of "Geochemistry N Lab"
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* [[media:Chapter10_WM_white.pdf|WM White's Geochemistry Ch.10]] | * [[media:Chapter10_WM_white.pdf|WM White's Geochemistry Ch.10]] | ||
* [http://en.wikipedia.org/wiki/Static_universe Wikipedia Static universe] | * [http://en.wikipedia.org/wiki/Static_universe Wikipedia Static universe] | ||
| + | * [http://en.wikipedia.org/wiki/Steady_State_theory Wikipedia steady state theory] | ||
* [http://en.wikipedia.org/wiki/Big_Bang Wikipedia Big Bang] | * [http://en.wikipedia.org/wiki/Big_Bang Wikipedia Big Bang] | ||
* [http://members.tripod.com/~ssscott/BigBang.html Siegel's Big Bang page] | * [http://members.tripod.com/~ssscott/BigBang.html Siegel's Big Bang page] | ||
Revision as of 22:16, 12 March 2012
{{#Customtitle:지구화학및 실험 Geochemistry & Lab}}
Contents
개요 Outlines
This course is to help students understand geological processes and phenomena with the principles of chemistry. The knowledge from this class will certainly be the basis of learning almost all fields of geology, and thus it is one of the essential courses which geology and other neighbour major students should take.
일반 과목 정보 Gneral course information
- Course code: 330016
- Credit-Lecture-Lab work: 3-2-2
- Grading: With Midterm Exam (30%) + Final Exam (30%) + Lab work (30%) + Attendance (10%)
- Type of class: Lecture + Discussion + Lab work (probably solving the problems)
교재 및 참고서 Text & references
- Text: Principles and Applications of Inorganic Chemistry (G. Faure, 1991, Macmillan)
- References: Any inorganic geochemistry text (eg. Principles of Geochemistry by M. Moor in 1982, John Wiley)
수강 조건 Prerequisites
Geology and chemistry knowledge should help
강의 계획 Lecture schedule
| Week No. | Lecture title | Assignment | Lecture note | Reading Materials & Other Supplements |
| 1 | Definition of Geochemistry, Various Fields of Study in Geochemistry | |||
| 2 | Solar system and elemental distribution | Thinking of how the elements distributes as they do now | ||
| 3 | Thermodynamics for geochemistry, Part 1 | Surveying the characteristics of the Moon | ||
| 4 | Thermodynamics for geochemistry, Part 2 | What is chemical equilibrium? | ||
| 5 | Structure of atoms; how the electron configuration controls the properties of the elements | Calculation of the Gibbs free energy change as a function of temperature and pressure | ||
| 6 | Chemical bondings and crystal chemistry of minerals | Calculation of ionicities of bondings in various silicates | ||
| 7 | Radiogenic isotopes, Part 1; principles of radioactive decay and age dating | Caculation of Radius ratio range for a given coordination number | ||
| 8 | Radiogenic isotopes, Part 2; utilization of radiogenic isotopes in various geologic fields | Determination of absolute age | ||
| 9 | Stable isotopes, Part 1; isotope fractionation | |||
| 10 | Stable isotopes, Part 2; Utilization of stable isotopes in various geological fields | Calculation of isotope fractionation | ||
| 11 | Igeneous geochemistry, Part 1: Major element distribution | Extraction for stable isotope analysis | ||
| 12 | Igneous geochemistry, Part 2: Minor elelment distribution | Interpretation of stability diagrams | ||
| 13 | Low T aqueous geochemistry, Part 1; types of reactions and equilibrium | Analysis of REE patterns | ||
| 14 | Low T aqueous geochemistry, Part 2; Phase equilibria | Calculation of solubilities | ||
| 15 | Low T aqueous geochemistry, Part 3; Redox reactions | Eh-pH diagram |
