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Course Criteria
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3.00 Credits
Prerequisites: CHM 303 and CHM 406. Theory and application to quantitative analyte determination of optical, spectroscopic, electro-analytical, and chromatographic instrumental techniques. Optimization of instrumental and analytical parameters and strategies for data acquisition are also discussed. Three hours of lecture per week. 3 Cr.
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3.00 Credits
Prerequisite or corequisite: CHM 414. Course fee. The use of various electro-analytical, spectroscopic, and chromatographic instruments to perform chemical analyses. Emphasis is on optimizing instrumental selectivity, sensitivity and resolution. Organization and analysis of data are also discussed. Four hours of laboratory per week. 1 Cr.
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3.00 Credits
Cross-listed as CPS 417. Prerequisite: CHM 405. Introduction to the use of computational methods in chemistry. Application of several software packages to perform a range of activities including basic chemical simulations, molecular mechanics and abinitio calculations. 3 Cr.
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2.00 Credits
Students receive instruction and hands-on training in widely used nuclear magnetic resonance (NMR) techniques. 2 Cr.
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3.00 Credits
Prerequisite or corequisite: CHM 405. Studies trends within the periodic table, atomic structure, ionic and covalent bonding models, weak chemical forces, acid-base chemistry, chemistry in aqueous and nonaqueous solutions, and coordination compound bonding, structure, and reactivity. Three hours lecture per week. 3 Cr. Spring
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3.00 Credits
Prerequisites: CHM 405 and CHM 408. Course fee. Explores use of classical synthetic methods to prepare coordination compounds. Applies advanced physical theory and instrumental methods to the problems of defining the composition, structure, bonding, and reactivity of these compounds. Four hours lab per week. 1 Cr. Spring
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3.00 Credits
Cross-listed as GEL 457. Prerequisites: CHM 205, CHM 206 and GEL 101. Course fee. Applies basic chemical principles of thermodynamics, kinetics, and equilibrium to the investigation of common geologic problems ranging from crystallization of silicate melts to surface reactions on soil minerals. Focuses on laboratory exercises on application of good laboratory practices to wet chemical and instrumental techniques involving geologic materials. Three hours lecture and three hours lab per week. 4 Cr.
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3.00 Credits
Cross-listed as BIO 467. Prerequisite: CHM 306; a college course in biology is strongly recommended. Covers the chemistry of proteins, lipids, carbohydrates, nucleic acids and other biomolecules, with an emphasis on buffers, structures, experimental methods, main energy production pathways, biosynthesis, the deduction of structures, functional roles and mechanisms. Three hours lecture per week. 3 Cr. Fall
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3.00 Credits
Cross-listed as BIO 468. Prerequisite: CHM 467 or BIO 467. Provides a continuation of CHM 467. Covers additional metabolic pathways, human nutrition, chromosomes and genes, protein biosynthesis, cell walls, immunoglobulins, muscle contraction, cell motility, membrane transport and excitable membranes and sensory systems. Investigates experimental evidence for the structures and functions of biomolecules. Three hours of lecture/discussion per week. 3 Cr. Spring
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3.00 Credits
Cross-listed as BIO 470. Prerequisite or corequisite: CHM 467 or BIO 467. Course fee. Covers biochemical analyses, including preparation, separations and characterization of products from a variety of biological sources; and experiments with enzymes and experiments designed to measure changes inherent in the dynamics of living systems. Four hours lab per week. 1 Cr.
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