Catalog Year: 2017-2018
Professors Gron, Hales, and Kopper
Associate Professors Caro (chair) and Hatch
Assistant Professors Dahlmann, Kett, and Yanney
Visiting Assistant Professor W. Gunderson
Laboratory Teaching Staff Bradley and Desrochers
The courses for this program are organized into the following categories:
The theories, models, structures, and reactions of modern chemistry are introduced to the nonscience major. Historical antecedents in the development of current concepts of matter are explored. Mathematical problem-solving in a chemistry context is included.
Environmental issues are used as a basis to introduce the theories, models, structures, and reactions of modern chemistry to the non-science major. The states of matter are studied in the contexts of air pollution, ozone depletion, global warming, acid rain, and energy sources and consumption. Mathematical problem solving in a chemical context is included.
Theories of matter with emphasis on environmental applications. Laboratory includes separations and spectroscopy.
Reactions and equilibria of environmental significance. Laboratory involves analysis of environmental samples. Prerequisite: CHEM 110.
Molecular structure and properties, chemical reactions, equilibria, kinetics, and thermodynamics. Appropriate for students with a strong background in chemistry. Students receiving credit for this course may not also receive credit in CHEM 110 and CHEM 120. Prerequisite: Qualification by a standardized chemistry examination (AP 4 or higher, IB 5 or higher) previous chemistry experience with equivalent of ACT 30 or higher in mathematics, or consent of instructor.
The compounds of carbon with an emphasis on structure, nomenclature, and stereochemistry. Laboratory course. Prerequisite: CHEM 120 or CHEM 150.
The compounds of carbon with an emphasis on reaction mechanisms and spectroscopy. Laboratory course. Prerequisite: CHEM 240.
Quantitative chemical analysis techniques and skills are developed and applied to the analysis of environmental systems. Methods of sample collection, preparation and data analysis are learned in the classroom and in the laboratory. Prerequisite: CHEM 120 or CHEM 150.
Application of physical principles and mathematical descriptions to chemical systems: quantum theory, atomic structure, molecular structure and bonding, and interactions of matter with electromagnetic radiation. Prerequisites: MATH 140, PHYS 220, 240, or 245, and CHEM 250 or consent of instructor. Co-requisite: CHEM ATC.
Application of physical principles and mathematical descriptions to chemical systems: chemical and statistical thermodynamics, chemical kinetics and dynamics. Prerequisites: MATH 140, PHYS 210, 230, or 235, and CHEM 250 or consent of instructor. Co-requisite: Students taking CHEM 320 after CHEM 310 must take CHEM ATC lab. Students taking CHEM 320 but not CHEM 310 must take CHEM 320L.
Fundamental biochemistry with emphasis on cellular constituents and molecular structure and function. Laboratory course. Prerequisite: CHEM 250.
Advanced Biological Chemistry will demonstrate how biomolecules interact with one another through various metabolic pathways. The course covers metabolism of carbohydrates, fatty acids, amino acids and nucleotides, metabolic integration of major biochemical pathways, and hormones and signal transduction. Prerequisite: CHEM 330.
Fundamental theory and practice of modern instrumental techniques, including atomic and molecular spectroscopic methods and spectal analysis. Prerequisite: CHEM 240 and PHYS 220, 240, or 245, or consent of instructor.
Laboratory course. Cross-listed as PHYS 315 Modern Physics. Prerequisite: CHEM 320.
Current topics in biochemistry, biochemical reactions and mechanisms, and macromolecular structure and function will be discussed. Prerequisite: CHEM 330.
This course is a study of inorganic material with a focus on synthesis, molecular structure, and bonding. Students expand their knowledge of symmetry, catalysis and solid state structures. This course integrates material from the previous chemistry curriculum. Prerequisite: CHEM 310 or instructor permission.
Independent laboratory research conducted across two semesters in conjunction with a specific faculty member whose approval is required prior to enrollment. A student receives one course credit after the two semesters of research. Research topics are selected on an individual basis. The results of the research are written as a final research report. To receive Odyssey UR credit for this course students must present their results in a public forum.
No credit. Seminars by invited speakers, students, and faculty. Prerequisite: Senior standing.
No Credit. Unified laboratory experience combining physical, inorganic, and analytical chemistry techniques, including data analysis and computational modeling. Corequisite: CHEM 310 or 320.
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