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Course Criteria
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4.00 Credits
spring, odd years. Kinetic-molecular theory, transport processes such as diffusion and viscosity, rates of reactions (chemical kinetics), quantum mechanics, spectroscopy, and statistical mechanics. Prerequisite: CHEM 333 or consent of instructor.
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3.00 Credits
on demand. The chemical materials, reactions, and processes associated with air, water, and soil pollution, including effects on human, animal, and plant health. Topics include stratospheric ozone, global warming, acid rain, smog, indoor air pollutants, organic and inorganic water and soil contaminants, soil and water pH, effects of energy production, and others. Prerequisites: CHEM 322, 324.
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2.00 Credits
fall, first half, odd years. Emphasizes the basic theoretical principles, calculations and methods of electrochemical and volumetric analyses. Laboratory work covers neutralization and oxidation-reduction titrations as well as potentiometry, electrogravimetry and cyclic voltammetry. Laboratory graded and credited with the course. Prerequisites: CHEM 322, 324.
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2.00 Credits
spring, first half. Integrated lecture/laboratory course dealing with qualitative and quantitative analyses based on light, including UV-visible absorption, atomic absorption, fluorescence and phosphorescence, and plasma emission methods. Laboratory graded and credited with the course. Prerequisites: CHEM 322, 324 and senior standing.
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2.00 Credits
spring, second half. Emphasizes the theoretical and practical aspects of various analytical separation methods. Laboratory involves use of gas, column, thin layer, and high performance liquid chromatography to analyze chemical samples. Laboratory graded and credited with the course. Prerequisites: CHEM 322, 324 and senior standing.
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2.00 Credits
fall, second half, odd years. Integrated lecture/laboratory course emphasizing the use of mass spectrometry, multi-nuclear magnetic resonance spectroscopy and infrared spectroscopy in the elucidation of structures for chemical compounds. Laboratory graded and credited with the course. Prerequisites: CHEM 322, 324.
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3.00 Credits
spring. An introduction to molecular modeling of organic, inorganic, and biologically important molecules using desktop computers. Includes building and animating 3-D models, energy minimization, molecular dynamics, docking and overlaying, analysis of symmetry and bonding in molecules and crystals, and prediction of reactivity. Prerequisite: CHEM 324.
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3.00 Credits
fall, spring, summer. Students carry out an experimental investigation related to the research interest of a faculty member for 1-3 credit hours. A paper incorporating results of the research work, written in the format of published journal articles, is required for completion of the course. Prerequisite: consent of instructor.
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3.00 Credits
spring. Introduces the fundamentals of physical chemistry applied to biological systems. Includes thermodynamics, bioenergetics, chemical equilibria, kinetics, enzyme catalysis and inhibition of living systems. Prerequisites: CHEM 324; MATH 124 or higher.
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1.00 Credits
spring, even years. Techniques and methods for synthesizing and characterizing inorganic compounds. Also introduces crystal structure and crystal growth. Prerequisite: CHEM 443 or concurrent enrollment.
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