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Course Criteria
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0.00 - 4.00 Credits
The concepts introduced in CHM 303 will be extended to the structures and reactions of more complex molecules, with an emphasis on how organic chemistry provides the framework for understanding molecular processes in biology. The fundamental concepts of organic chemistry will be illustrated, as often as possible, with examples drawn from biological systems. Appropriate for chemistry and engineering majors, premedical students, and students with an interest in organic chemistry and its central position in the life sciences.
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0.00 - 4.00 Credits
Introduction to quantum mechanics, surveying applications in chemistry, physics, and spectroscopy.
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0.00 - 4.00 Credits
At the center of this course is the recognition of Gibbs Free Energy as a fundamental quantity describing physical processes. From this, we will develop concepts of thermodynamics and kinetics, and illustrate them with examples from chemistry.
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0.00 - 4.00 Credits
The chemical background of environmental issues. Topics include energy and fuels, greenhouse effect, ozone, air pollution, food production, pesticides, metals pollution, carcinogens and anti-oxidants.
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0.00 - 4.00 Credits
The purpose of this laboratory course is to teach the principles and practice of modern experimental chemistry, including: data collection, analysis, and interpretation; experimental design; validity of data and meaning of statistical correlation; and theoretical and operational aspects of modern instrumentation. Applications of computers in data analysis and molecular modeling will also be covered.
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0.00 - 4.00 Credits
A selection of advanced topics in organic chemistry, including organic synthesis, organic reaction mechanisms, biosynthetic pathways, and elements of modern drug design.
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0.00 - 4.00 Credits
First principles development of quantum theory, with applications to atoms, molecules, and their spectroscopy. This course will emphasize developing basic principles and focus on illustrative examples.
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0.00 - 4.00 Credits
This course is an introduction to statistical thermodynamics, kinetics, and molecular reaction dynamics. Following a review of classical thermodynamics, the statistical mechanics of molecular systems is developed. Discussions of transport properties, chemical kinetics, and reaction dynamics form the rest of the course.
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0.00 - 4.00 Credits
Structural principles and bonding theories are discussed for various classes of main group inorganic and transition metal coordination compounds. Includes an introduction to the electronic structure of d-orbitals and ligand field theory.
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0.00 - 4.00 Credits
Structure-reactivity correlations for inorganic complexes will be emphasized. Ligand substitution and electron transfer processes will be presented. The course will highlight applications of inorganic and organometallic chemistry to areas of current interest to both organic and inorganic chemists. These areas will include organic synthesis, "redox" reactions, catalysis, and materials. Prior completion of a full year of organic chemistry is required for enrollment.
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