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Course Criteria
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2.00 Credits
An advanced laboratory course for junior and senior science majors who wish to gain theoretical and practical experience with the techniques and equipment commonly used in the fields of cellular biology, molecular biology, and biochemistry. Topics include PCR, electrophoresis, enzyme kinetics, aseptic cell and tissue culture, cell surafce receptors, and molecular modeling. Five-hour laboratory with one-hour pre-lab lecture each week. Cross-listed as BIO 440. Prerequisite(s): BIO431 or CHM 338; or permission of the instructor. Additional Fee(s): Laboratory fee.
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3.00 Credits
This course is an advanced study of the chemical principles underlying common environmental problems. It aims to deepen the student's knowledge of chemistry and its role in the environment and shows the power of chemistry as a tool to help us comprehend the changing world around us. Cross-listed as ENV 443. Three hour lecture per week. Prerequisite: A 300-level chemistry course or permission of instructor.
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3.00 Credits
Modern theories and concepts of atomic and molecular structure with illustrative material drawn from various classes of inorganic compounds of current interest, as well as descriptive chemistry of the lanthanides and actinides. Three lectures per week. Prerequisite(s): CHM 209 and 312
Prerequisite:
CHM209 AND CHM312
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3.00 Credits
This course covers three areas of organic chemistry at an advanced level: molecular orbital theory and pericyclic reaction, multistep synthesis and retrosynthesis, and polymer chemistry. Prerequisite(s): CHM 206, 216, and 311
Prerequisite:
CHM206 AND CHM216L AND CHM311
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3.00 Credits
This course is an advanced study of the chemical principles underlying common environmental problems. It aims to deepen the student's knowledge of chemistry and its role in the environment and shows the power of chemistry as a tool to help us comprehend the changing world around us. Three hours of lecture per week. Cross-listed as ENV 443. Prerequisite(s): A 300-level chemistry course or permission of the instructor.
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3.00 Credits
Study of computational techniques of importance in contemporary drug design. Topics include molecular docking, ligand binding free energy calculations, de novo drug design, pharmacophore elucidation, quantitative structure-activity relations, and combinatorial library design. Cross-listed as BIO 552. Prerequisite(s): A 300-level biology or chemistry course or permission of the instructor.
Prerequisite:
BIO340 OR BIO358 OR BIO375 OR BIO384 OR CHM311 OR CHM312 OR CHM317L OR CHM318L OR CHM322 OR CHM338 OR CHM339 OR CHM340L
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3.00 Credits
Green chemistry was defined by Paul Anastas in the 1990s as "the design of chemical products and processes that reduce or eliminate the use and generation of hazardous compounds." Stated broadly, this course helps students understand the notion of sustainability and how it applies to chemistry. It also explores the history of chemistry, outlines the critical need for green chemistry, and explores the principles that guide its practice.
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3.00 Credits
Study of objective processes used to evaluate the environmental burdens associated with a product, process, or activity. This involves identifying energy, materials, and wastes in order to evaluate and implement opportunities to affect environmental improvements. Material and energy flow analyses (e.g., mass balancing) are covered for a variety of scales, such as an individual business, industrial sector, or an entire economy.
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3.00 Credits
Fundamental concepts of chemical engineering; problem-solving techniques; applications to the environment and sustainability of stoichiometry, material and energy balances, and phase equilibria; bioprocesses and how to make things from renewable resources.
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3.00 Credits
Modern theories and concepts of atomic and molecular structure, with illustrative material drawn from various classes of inorganic compounds of current interest, as well as descriptive chemistry of the lanthanides and actinides.
Prerequisite:
CHM209 AND CHM312
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