Course Meeting Times
Lectures: 2 sessions / week, 1.5 hours / session
Course Objectives
To teach fundamental concepts for understanding the behavior of inorganic species, such as carbonate and trace metals, in aquatic systems. Dominantly considers a thorough treatment of equilibrium, including acid-base, complexation, precipitation-dissolution, and reduction-oxidation reactions. There is a short introduction to chemical kinetics. A main skill you will learn is to determine the equilibrium composition of a system given its initial conditions. To help you gain an intuitive sense of the behavior of complex chemical systems, approximation techniques are emphasized.
Required Text
Morel, Francois M., and Janet G. Hering. Principles and Applications of Aquatic Chemistry. New York, NY: Wiley-Interscience, 1993. ISBN: 0471548960.
Suggestions for Supplementary Reading
Anderson, G. W. Thermodyanmics of Natural Systems. New York, NY: Wiley-Interscience, 2005. ISBN: 0521847729.
Stumm, Werner, and James J. Morgan. Aquatic Chemistry. New York, NY: Wiley-Interscience, 1996. ISBN: 0471511854.
Grading
ACTIVITIES | PERCENTAGES |
---|---|
Problem Sets (Highest 5 of 6 grades) | 40% |
Take-home Mid-term | 25% |
Final Exam | 35% |
Both exams are open book, open notes.
Problem Set Policy
You are encouraged to discuss class material with your classmates. Problem sets should be your own work (this is how you learn the material).
Problem sets are due at the beginning of the class period on the day stated. Late problem sets are not accepted except under extenuating circumstances (e.g., prolonged absence due to illness…)
Don't use calculational aids other than calculators unless otherwise indicated.
Exam Dates
Take-home Mid-term - To be done during a 24-hour period after Ses #13
Final Exam - 3-hour exam during exam week