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Course Criteria
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0.25 Credits
K. Broekhuizen, R. Rowlett An introduction to the theory, practice, and applications of modern instrumental methods of chemical analysis. The theoretical background and principles of operation of modern chemical research instrumentation are examined. Laboratory experiments emphasize care, calibration, operation, and application of these instruments to real-life samples. The required 0.25 credit-bearing laboratory course CHEM 381 must be taken concurrently with CHEM 371 and may not be taken as a stand-alone course. Prerequisites: CHEM 264 or permission of instructor. Offered in the fall only.
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3.00 Credits
This course is crosslisted as NEUR 379 and PSYC 379. For course description, see "Neuroscience Program under Psychology: Course Offerings."
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0.25 Credits
K. Broekhuizen, R. Rowlett, R. Geier This half-semester 0.25-credit integrated laboratory course, to be taken concurrently with CHEM 371, is focused on practical instrumental analysis. Exploratory laboratory experiences with a variety of analytical instrumentation are the mainstay of the course. Students solve quantitative problems from the fields of food, environmental and medicinal chemistry, among others through the application of appropriate instrumental methods. Corequisite: CHEM 371. Prerequisite: CHEM 264. Offered in the fall only.
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0.25 Credits
Q. Shen, E. Woods This half-semester, 0.25-credit laboratory-based course explores the relationship between a molecule's structure and its discrete energy levels. The students measure these energy levels through a variety of spectroscopies including infrared absorption, ultraviolet-visible absorption, fluorescence, Raman scattering, and NMR. Prerequisite: CHEM 333 or corequisite CHEM 336. Offered in the spring only.
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0.25 Credits
Q. Shen, E. Woods This half-semester, 0.25-credit laboratory-based course explores the effect of molecular motion and intermolecular forces on both the microscopic and bulk properties of matter. The topics investigated include viscosity, surface tension, isomerization kinetics, and relaxation phenomena. Corequisite: CHEM 334 or CHEM 336. Offered in the spring only.
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0.25 Credits
G. Gogel, R. Rowlett This half-semester, 0.25-credit integrated laboratory course is designed to be an introduction to modern methods of biophysical chemistry and a bridge to independent research in biological chemistry. Specifically, this course includes techniques of protein purification from heterologous overexpression or natural sources. This course also focuses on modern methods of protein characterization, including electrophoresis, spectroscopy, enzyme kinetics, dynamic light scattering, and/or X-ray crystallography. Prerequisite: CHEM 264. Offered in the fall and spring.
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0.25 Credits
K. Broekhuizen, A. Chianese, E. Nolen This half-semester, 0.25-credit integrated laboratory course offers an in-depth study of quantitative and structural analysis. Students complete an independent project employing techniques that may include advanced NMR (selective decoupling, variable-temperature, NOESY), mass spectrometry including MALDI and MS/MS, chromatographic separations, and small molecule X-ray crystallography. Prerequisites: CHEM 381 or permission of instructor.
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3.00 Credits
A Chianese, P. Sheridan After reviewing general principles of atomic structure, molecular symmetry, chemical bonding, and acid-base and electron-transfer reactions, the course emphasis shifts to the chemistry of transition metal complexes. The bonding, structural patterns, and reaction mechanisms of classical coordination complexes and organometallic compounds are studied. Prerequisites: CHEM 333 or the equivalent. Offered for the last time fall 2009.
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0.50 Credits
A Chianese, P. Sheridan In this half-semester 0.50-credit course, some ground rules of group theory are established, and then students explore applications in the analysis of molecular vibrations, and in molecular orbital theory, especially as applied to transition metal complexes. Prerequisite: CHEM 212, or permission of instructor. Offered in alternate years.
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0.50 Credits
A Chianese, P. Sheridan This half-semester 0.50-credit course is a survey of the organometallic chemistry of the transition elements, focusing on synthesis, bonding, structure, elementary reactions, and application to homogeneous catalysis. Prerequisites: CHEM 212 and CHEM 264, or permission of instructor. Offered in alternate years.
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