300

This course provides a comprehensive introduction to theories on gases, physical transformations, chemical equilibrium, phase diagrams, mixtures, electrochemistry, and the laws of thermodynamics. (See 17-331.)

This lab applies theories and principles emphasized in 03-300.

Biophysical Chemistry will explore the applications of physical chemistry to probe the structure, function, and reactivity of biological systems.  More specifically this course applies the theories of gases, physical transformation, chemical equilibrium, phase diagrams, mixtures, electrochemistry, thermodynamics, and the laws of statistical thermodynamics to biological and supramolecular systems.  The approach seeks to derive phenomena in biological systems in terms of either the molecules that make up the system or the supra-molecular structure of the system.

A continuation of 03-300, this course covers Quantum theory, atomic structure, spectroscopy, statistical mechanics and kinetics.

This lab applies theories and principles emphasized in 03-305.

A continuation of 03-302, this course covers kinetics, quantum theory, atomic structure, spectroscopy, photochemistry, photobiology and macromolecules.

Students learn about the equilibrium theory as applied to analytical procedures in acid-base systems, oxidation-reduction processes, solubility, and complexation phenomena.

This lab provides a study of the theory and practice of quantitative separations and analyses including training in volumetric and gravimetric techniques in the four areas specified in 03-320.

Instrumental methods of analysis are studied in the context of the physical theories underlying their application to chemical systems. Other topics covered include: infrared, UV-visible, x-ray and atomic absorption spectroscopy; electrometric methods of analysis; and N.M.R., gas chromatography and mass spectrometry.

Students practice the physical methods of analysis in several of the areas specified in 03-325.

Advanced spectroscopic theory and instrumental methods are studied and applied in the context of chemical systems. Topic covered in 03-232 are expanded and other topics covered include chromatography, mass spectrometry, electrochemistry, and x-ray absorption and diffraction.

Students explore the sources, fundamental principles, reactions, transport, effects and fate of chemicals in water and waste water. Sources of energy and energy alternatives are studied, together with problems of hazardous waste and possible remediation approaches.

Students apply the principles stressed in 03-340.

A continuation of 03-340, the course studies the sources, reactions, transport, effects and fate of chemicals in the atmosphere, as well as solid waste and soil environments. Advanced laboratory techniques are examined in order to understand how various chemicals involved in pollution of water, air and soil environments are analyzed.

Students apply the principles stressed in 03-342.

This seminar gives students the opportunity to explore contemporary topics in Chemistry/Biochemistry though literature research and class presentations and by attending seminars and colloquia.  This seminar will also develop the research project proposal that will be conducted in the Capstone Project course.

Subject matter of a specialized nature is covered in detail.  Lab reports and/or research papers may be required.