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Course Criteria
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3.00 Credits
An introduction to the physiochemical behavior of electrolytic solutions, and its application to chemical separations and analyses. Prerequisites: Chemistry 103, 104. 3 lecture hours; 1 three-hour laboratory period; 4 semester hours
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3.00 Credits
Study of aliphatic and aromatic compounds, synthesis, properties, and reaction mechanisms. Laboratory work in techniques, synthesis, properties and typical reactions. Prerequisites: Chemistry 103, 104. 3 lecture hours; 1 three-hour laboratory period; 4 semester hours
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3.00 Credits
Study of aliphatic and aromatic compounds, synthesis, properties and reaction mechanisms. Laboratory work in techniques, synthesis, properties and typical reactions. Prerequisites: Chemistry 103, 104, 205. 3 lecture hours; 1 three-hour laboratory period; 4 semester hours; every semester1 threehour laboratory period; 4 semester hours
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3.00 Credits
Principles of Thermodynamics and structure of matter applied to homogeneous and heterogeneous equilibria, electrochemistry, reaction kinetics. Must be taken with Chemistry 321, 322 unless prior credit has been earned. Prerequisites: Chemistry 202; Mathematics 215; Physics 107, 108. Co-requisite: Chemistry 205. 3 lecture hours; 6 semester hours
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4.00 Credits
Laboratory experiments in modern physical chemistry. Must be taken with Chemistry 319, 320 unless prior credit has been earned. Co-requisite: Chemistry 319 for Chemistry 321 and Chemistry 320 for Chemistry 322. 1 four-hour laboratory period; 4 semester hours
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3.00 Credits
The principles of physical chemistry are applied to chemical instrumentation, including the operation, capabilities, and limitations of various forms of chemical instrumentation. Spectrometry, spectrophotometry, chromatography, and electrical measurement methods are among the methods considered. Sample preparation and handling, electronics, computer controls, and the advantages and disadvantages of various detectors, sources, optical components, electronic variations are emphasized. Prerequisite: Chemistry 320. 1 lecture hour; 2 three-hour laboratory periods; 3 semester hours; upon student demand
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3.00 Credits
Chemical and instrumental identification or organic compounds and separation of mixtures of compounds. Prerequisite: Chemistry 206. 1 lecture hour; 2 three-hour laboratory periods; 3 semester hours
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3.00 Credits
Atomic and molecular structure and bonding; chemistry of the less familiar elements; compounds of unusual structure; coordination complexes and stereochemistry. Laboratory work includes special preparations and their assay. Prerequisites: Chemistry 206, 319; Co-requisites: Chemistry 320, 322. 3 lecture hours; 1 three-hour laboratory period; 4 semester hours
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3.00 Credits
The unifying and quantifying central concepts of biochemistry are studied by applying fundamental physiochemical principles of biological systems. Mechanisms and regulation of major metabolic pathways and structure and function of cellular elements on the molecular scale are covered in detail. Prerequisite: Chemistry 206. 3 lecture hours; 1 three-hour laboratory period; 8 semester hours
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3.00 Credits
Multisteps organic synthesis with emphasis on the structure and mechanism of the reactions involving carbon formation and functional group manipulations. The applications of modern spectroscopy in ascertaining structures of the reaction products with a view on the stereochemistry. Prerequisite: Chemistry 205, 206 or equivalent. 3 semester hours
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