111. Physical Chemistry. (4 units) Fa. Prerequisites: College general chemistry and differential/integral calculus. Lecture 3 hours. Laboratory 3 hours.
C. Voigt, R. Shafer
This course teaches the fundamentals of thermodynamics and its application to chemical, biochemical and pharmaceutical systems. ( department: PHARM CHEM )
112. Chemical Kinetics. (2 units) Wi. Prerequisites: Chemistry 111 or consent of instructor. Lecture 3 hours. Laboratory 3 hours.
J. Gross
Concepts of kinetics and their application to chemical and enzymatic reactions. ( department: PHARM CHEM )
170. Group Studies Course. (1-4 units) Fa, Wi, Sp. Prerequisites: Consent of instructor. Lecture 1-4 hours.
Staff
Group studies in selected topics in chemistry. ( department: PHARM CHEM )
198. Supervised Study. (1-5 units) Fa, Wi, Sp, SS1, SS2, SS3. Library 3-15 hours.
Staff
Library research and directed reading under supervision of a member of the faculty with the approval of the chairperson of the department. ( department: PHARM CHEM )
199. Laboratory Project. (1-5 units) Fa, Wi, Sp, SS1, SS2, SS3. Research 3-15 hours.
Staff
A laboratory research project under direction of a member of the faculty with the approval of the chairperson of the department. ( department: PHARM CHEM )
203. Synthetic Organic Chemistry. (3 units) § Sp. Prerequisites: undergraduate organic chemistry. Lecture 3 hours.
T. Scanlan
The course covers modern methods in synthetic organic chemistry. Lecture material focuses on new reagents, synthetic strategies, and functional group conversions. Applications of organic synthesis to biological research problems are also highlighted. ( department: PHARM CHEM )
241. Molecular Thermodynamics. (5 units) § Fa. Prerequisites: none. Lecture 5 hours.
K. Dill
This is a course on molecular thermodynamics and statistical mechanics. It covers the concepts of entropy, enthalpy, heat capacity, free energy, ligand binding, solvation, the properties of water, the hydrophobic effect, solution electrostatics, adsorption, and physical and chemical kinetics. ( department: PHARM CHEM )
242. Physical Organic Chemistry. (3 units) § Wi. Prerequisites: None. Restrictions: Graduate standing or permission of the instructor. Lecture 2 hours. Laboratory 1 hours.
P. England
Fundamentals of physical organic chemistry with an emphasis on the principles and practices of modern spectroscopy applied to structure determination of small molecules. ( department: PHARM CHEM )
243. Chemical Biology. (5 units) § Sp. Lecture 5 hours.
C. Craik
Basics of chemical biology with a particular emphasis on understanding and manipulating molecular mechanisms of complex biochemical phenomena. Lectures will address macromolecular structure, function, mechanisms, synthesis and metabolism applications. ( department: PHARM CHEM )
244. Reaction Mechanisms. (3 units) § Wi. Prerequisites: Graduate standing or consent of instructor. Lecture 3 hours.
K. Shokat
This course is designed to develop the student's knowledge of organic mechanisms. Thisinteractive course involves some lectures, but enforces student learning through intensive arrow pushing sessions with students at the board. Topics include electrocyclic reactions, Woodward-Hoffman rules, sigmatropic reactions, migration reactions, neighboring group effects, carbanions and free radicals, carbenoids, nitrenes, six-membered heterocyclic rings, five-membered heteroclyclic rings. ( department: PHARM CHEM )
264. Advanced Statistical Mechanics & Molecular Mechanics. (2 units) § Sp. Prerequisites: Chemistry 260 or consent of instructor. Lecture 2 hours.
K. Dill
Advanced aspects of statistical mechanics and molecular mechanics; topics covered vary from year to year. ( department: PHARM CHEM )
297. Chemistry and Chemical Biology Journal Club. (1 units) § Su, Fa, Wi, Sp, SS1, SS2, SS3. Prerequisites: None. Restrictions: None. Seminar 3 hours.
C. Craik
Readings and conferences based on topics in chemistry and chemical biology. Students are required to present in journal club, once in the first year and once in the second year. This experience will assist students in perfecting communication skills of the scientific literature. ( department: PHARM CHEM )
Panel Information © copyright 1997 University of California