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Course Criteria
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3.00 Credits
Gasliquid, gassolid and solidliquid interfaces. Adsorption and surface area determination. The electrical double layer and its relation to flocculation and electrokinetic phenomena. 3 lectures/problemsolving. Prerequisite: CHM 305 or 313.
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3.00 Credits
Fundamental aspects of chemical thermodynamics, including the first, secon, and third laws. Studies of chemical and phase equilibria, enthalpy, entropy, work and free energy. Relationship to molecular structure and statistical mechanics. 3 lectures/problemsolving. Prerequisite: CHM 305 or 313; MAT 216.
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4.00 Credits
Theoretical studies and applications of computational techniques to macromolecular (i.e. polymers, proteins, and nucleic acids) structure, stability and function. Brownian dynamics, PoissonBoltzmann electro statics, potential of mean force, and homology modeling. Molecular graphics to aid in application of methods and interpretation of results. 4 lectures/problemsolving. Prerequisites: CHM 260, and either CHM 327 or 321.
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4.00 Credits
Theoretical underpinnings of computational methods in modern biochemistry and practical training in use of them. Sequence entry, and editing, sequence alignment, phylogenetic analysis, homology searching, elementary protein structure prediction, display and evaluation of 3D molecular structures. 4 lectures/problemssolving. Prerequisites: CHM 260, 321, 327 or BIO 450.
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4.00 Credits
Concepts behind collection of experimental data in chemistry. Methods required for the analysis of data. Methods and experimental considerations required for implementation of electron/photon counting for quantitative analysis. 3 lectures/one recitation. Prerequisites: CHM 352A/352L, MAT 216.
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3.00 Credits
Mathematical preliminaries, postulates of quantum chemistry, wave functions for some simple chemical models, the central force problem, the Aufbau principle, hybrid orbitals, approximation methods and Hund's multiplicity rule. 3 lectures/problemsolving. Prerequisite: CHM 305 or 313; MAT 216.
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4.00 Credits
Applied quantum mechanical studies of molecular geometries, electronic excited states, potential energy surfaces and conformational structures spanning from small diatomic species to large biochemical molecules. Spectroscopic problems emphasized. Molecular graphics used to aid in both ab initio and molecular mechanics. 4 lectures/problemsolving. Prerequisite: CHM 313, MAT 216.
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2.00 Credits
Study of advanced acidbase theory, complexation, nonaqueous acidbase, solvent extraction and ionexchange equilibria. 2 lectures. Prerequisite: CHM 313 or 305.
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1.00 Credits
Theoretical and practical study of synthetic strategies in organic chemistry. 2 lectures/problemsolving, 2 threehour laboratories. Prerequisites: A minimum grade of D in CHM 221/221L, and a minimum grade of C in CHM 316 and Din CHM 319L. Concurrent enrollment required.
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1.00 Credits
Theoretical and practical study of experimental techniques used by organic chemists to investigate problems in reaction mechanisms, catalysis, solution chemistry and substituent effects. 2 lectures/ problemsolving, 2 threehour laboratories. Prerequisites: CHM 316, CHM 319L, CHM 313 or 305, and minimum grade of D in CHM 221/221L.
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