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Course Criteria
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1.00 - 3.00 Credits
A coordinated one-hour course (with CHEM 2110) emphasizing organic synthesis, separation techniques, spectral analysis, and testing of mechanism theory and relative rates. Corequisite: CHEM 2110.
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3.00 - 4.00 Credits
Second part of a two-semester sequence; a study of the more common oxygen, nitrogen, sulfur, and halogen derivatives of carbon. Emphasis is placed on structure, stereochemistry, preparation, chemical reactions, and physical properties and their relationship to the properties of biomolecules. Prerequisite: CHEM 2110. Corequisite: CHEM 2121.
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1.00 - 3.00 Credits
A coordinated one-hour course (with CHEM 2120) emphasizing more advanced syntheses and use of instruments for separation techniques and spectral analysis. Corequisite: CHEM 2120.
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3.00 - 4.00 Credits
This course will cover the use of basic statistical methods to treat sample data. Theories and concepts studied include solution equilibria, acid-base theory, oxidation-reduction, complexation, and solubility equilibria. An introduction to potentiometric and spectroscopic techniques. Prerequisite: CHEM 1223. Corequisite: CHEM 2312.
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2.00 - 3.00 Credits
Gravimetric, titrimetric, and volumetric methods along with statistical methods to evaluate data are presented in the laboratory. Various unknowns are determined utilizing the basic techniques described above. The laboratory will also introduce potentiometry and UV-visible spectroscopy. Corequisite: CHEM 2310.
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3.00 - 4.00 Credits
An in-depth study of major organic mechanisms, along with selected topics such as symphoria, heterocyclics, polymers, and molecular orbital modeling. Stereochemical and mechanistic applications are discussed including their application to biomolecules. Prerequisite: CHEM 2120.
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3.00 Credits
Theory and practice of instrumental analysis of organic compounds. Emphasis is on interpretation of data from modern instrumentation. Capabilities and limitations of spectral analyses are considered. Prerequisite: CHEM 2120.
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3.00 - 4.00 Credits
A course designed primarily for students pursuing the American Chemical Society accredited degree in chemistry. This course is an overview of the principles of advanced inorganic chemistry includ- ing applications of group theory and symmetry, molecular bonding theories, nomen- clature, kinetics and mechanisms, organometallics, polymers, and advanced inor- ganic laboratory techniques. The course has a lecture and laboratory component. Prerequisites: CHEM 2310 and MATH 1220. Prerequisite or corequisite: CHEM 3410 or CHEM 3400.
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3.00 - 4.00 Credits
Techniques covered include crystallization, distillation, gas and liquid chromatography, counter-current chromatography, micellar chromatography, electrophoretic techniques, and field flow fractionation. This course will also examine general transport theory, formation and properties of Gaussian zones, diffusion, zone broadening, concepts of plate height, resolution, and peak capacity. A laboratory section is included in the course. Prerequisite: CHEM 2310. Offered occasionally.
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3.00 - 4.00 Credits
An introduction to the basic design and theory of operation for modern instrumentation. Topics to be covered include flame spectroscopy, UV-visible spectroscopy, fluorescence and phosphorescence, IR, NMR, potentiometry, mass spectrometry, and an introduction to electro-analyti- cal techniques. This course will emphasize the practical applications and limitations of each technique. Included in the course is a laboratory period. Prerequisite: CHEM 3400 or CHEM 3410.
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