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Course Criteria
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3.00 Credits
Corrosion phenomena and definitions. Electrochemical aspects including reaction mechanisms, thermodynamics, Pourbaix diagrams, kinetics of corrosion processes, polarization and passivity. Non-electrochemical corrosion including mechanisms, theories and quantitative descriptions of atmospheric corrosion. Corrosion of metals under stress. Cathodic and anodic protection, coatings alloys, inhibitors, and passivators. Prerequisite: MAT 205 or CHM 342. (NS)
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3.00 Credits
Theory and practice of chemical analysis. Principles of quantitative separations and determinations; theory and application of selected optical and electrical instruments in analytical chemistry; interpretation of numerical data, design of experiments, solute distribution in separation methods. Prerequisites: CHM 31 and 51. (NS)
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3.00 Credits
Exploration of synthetic methods and analysis techniques for inorganic and organic compounds. Determination of product structures and quantitative analysis using modern chemical analysis techniques, including NMR, GC-MS, GC, HPLC, FT-IR, and XPS. Prerequisites: one year of organic chemistry. Prerequisite: CHM 51, 52, 53, 58 and pre- or co-requisite: CHM 332 (NS)
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3.00 Credits
Content related to CHM 334. Prerequisite: CHM 51, 52, 53, 58, 332 and 334. (NS)
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3.00 Credits
Applications of analytical chemistry to clinical problems. Discussion of methods in common use and the biochemical- medical significance of the results. Prerequisites: CHM 332 and 52. Schray. (NS)
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3.00 Credits
Introduction to crystal symmetry, point groups, and space groups. Emphasis on materials characterization by X-ray diffraction and electron diffraction. Specific topics include crystallographic notation, stereographic projections, orientation of single crystals, textures, phase identification, quantitative analysis, stress measurement, electron diffraction, ring and spot patterns, convergent beam electron diffraction (CBED), and space group determination. Applications in mineralogy, metallurgy, ceramics, microelectronics, polymers, and catalysts. Lectures and laboratory work. Prerequisite: MAT 203 or EES 131 or senior standing in chemistry. Lyman, Chan. (NS)
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4.00 Credits
Nature of chemical bonding as related to structure and properties of molecules and extended systems. Quantum chemistry of atoms and molecules applied to chemical transformations and spectroscopic transitions. Symmetry analysis and selections rules. Computational and spectroscopic lab involving acquisition and interpretation of electronic, vibrational and rotational spectra. Prerequisites: Phy 13 or 21, Math 205 or 43. (NS)
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4.00 Credits
Development of the principles of classical and statistical thermodynamics and their application to chemical systems. In classical thermodynamics emphasis will be on systems in which composition is of major concern: solutions, chemical and phase equilibria, and electrochemistry. Kinetic theory of gases; chemical reaction kinetics; chemical reaction dynamics. Prerequisites: Phy 13 or 21, Math 205 or 43. (NS)
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1.00 Credits
Laboratory studies that illustrate and extend the various fields of study in experimental physical chemistry as discussed in CHM 341 and CHM 342. Prerequisite: CHM 194 or CHE 210 or { CHM 341 or corequisite Chm 342} . (NS).
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3.00 Credits
Development of the principles of classical and statistical thermodynamics and their application to chemical systems. In classical thermodynamics emphasis will be on systems in which composition is of major concern: solutions, chemical and phase equilibria, and electrochemistry. Kinetic theory of gases; chemical reaction kinetics; chemical reaction dynamics. Prerequisite: Department permission required. This course is intended as a course for graduate students achieving their proficiency in physical chemistry and will consist of the lectures only of CHM 342.
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