Introduction to the laws controlling equilibrium and kinetic properties of macroscopic chemical systems, using thermodynamics and statistical mechanics. Prerequisites: CHEM 475

An overview of physical chemistry (thermodynamics, kinetics, statistical and quantum mechanics, and spectroscopy) emphasizing applications to biology including macromolecule structure and stability, ligand binding, enzyme catalysis, and membrance structure and transport.

Introduction to the macromolecules and networks of reactions of living cells, with emphasis on underlying chemical principles. Topics include structure of proteins and nucleic acids, mechanisms of enzyme catalysis, metabloic reaction networks, transfer of genetic information, and recombinant DNA technology.

This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

For third year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.