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Course Criteria
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3.00 Credits
Prerequisites: At least a C- in CHM 511 A continuation of CHM 511. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
1 hour lecture, 6 hours laboratory Basic biochemical techniques and methods including spectrophotometry, electrophoresis, chromatography, ultracentrifugation and radioisotopic techniques and their application to amino acids and proteins, lipids and membranes, enzymes and nucleic acids. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Prerequisites: CHM 252. Pre- or Corequisite: One semester of physical chemistry The first part of the course provides a background in the various areas of physical organic chemistry such as thermodynamics, kinetics, acid-base theory, structure-reactivity relationships and dipole moments. This is followed by a systematic study of reaction mechanisms. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Prerequisites: One semester physical chemistry; two semesters of college physics, three semesters of calculus, or permission of instructor. Pre- or Corequisite: CHM 316, or equivalent Selected topics in applied mathematics and computer science with applications to physical chemistry, organic chemistry, and bioinformatics. Includes introduction to differential equations, linear algebra, computer programming, curve and surface fitting, numerical integration, trajectory calculations, molecular modeling, quantum chemistry, computational molecular biology, and biological data analysis. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Prerequisites: CHM 315, or equivalent Exploration of the states of matter as understood by mind by considering reductionist and holistic approaches. Fundamental assumptions in developing scientific principles are examined with examples of kinetic theory of gases, ideal gas equation, and laws of thermodynamics. Application of thermodynamic laws to biological systems to model mind and brain activities. Structure, evolution, and functioning of the nervous system and neurological and metaphysical understanding of mind and consciousness are examined. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Prerequisites: Pre- or Corequisites: One year each of organic and physical chemistry Molecular orbital theory of organic molecules; applications of molecular orbital theory; reactivity, ESR, Carbon-13 NMR, photoelectron spectroscopy, etc.; orbital symmetry in electrocyclic reactions, cycloadditions, and sigmatropic reactions. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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4.00 Credits
Prerequisites: At least a C- in CHM 252, CHM 315; recommended, TEC 410 Laboratory synthesis of polymers and copolymers by different methods with an emphasis on the practical aspects of polymer synthesis. A discussion of various techniques of polymer characterization in terms of basic principles, experimental procedure, and interpretation of results. A selected number of experiments will be conducted on a class-project basis. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Prerequisites: One year of physical chemistry with grades of C- or better Fundamental quantum mechanical principles of electronic structure. Angular momentum, the hydrogen atom problem, helium ground and excited states, electron spin and antisymmetrization, many electron atoms, bonding theory, valence bond and molecular orbital theory of diatomic and polyatomic molecules, applications of group theory to molecular orbital calculations, the self-consistent field method. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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3.00 Credits
Physico-chemical principles governing structures of biological macromolecules. Topics include energetics and kinetics of biochemical processes, including binding, catalysis, diffusion/transport, and folding/ unfolding; behavior of macromolecules in aqueous medium; and application of spectroscopic methods in biochemistry. Gen Ed note: Chemistry courses satisfy the Natural Science and Technology requirement.
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3.00 Credits
Prerequisites: One year of physical chemistry with grades of C- or better Principles and selected topics, including analysis of reaction rates, kinetic and transition state theories, reactions in gas and liquid phases, unimolecular reactions, fast reactions, trajectory calculations, ion- molecule reactions, enzyme kinetics, and polymer kinetics. Note: Please consult your department chairperson. See the Graduate Catalogue for graduate general and program requirements.
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