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Course Criteria
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3.00 Credits
Dr. Sidie A study of the neuron structure and function. The course includes excitable cell membranes, ion channels, synapses, sensory receptors, neuronal integration, neuromuscular systems, coding of neural information, and computer simulation of neural systems. Prerequisites: Biology 201W; or permission of the instructor. Three hours of lecture; three hours of laboratory per week. Four semester hours. (LS.)
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3.00 Credits
Faculty A study of the essential nature of chemistry, emphasizing basic chemical principles and applications. Topics may include atomic structure, bonding, the production and utilization of energy, and oxidation-reduction. Societal and historical perspectives are introduced by way of assignments from the popular literature. A knowledge of algebra is assumed. Three hours of lecture and three hours of laboratory per week. Four semester hours. (LS.) Note: A student who has received credit for CHEM-105 may not enroll in CHEM-100Q. CHEM-100Q may not be used as elective credits for chemistry majors or minors.
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3.00 Credits
Faculty This course, intended for non-science majors, will examine selected topics in environmental chemistry through an understanding of basic chemical principles. Topics may include global warming, ozone depletion, pollution, and waste management. Three hours of lecture. Three semester hours. (LS if taken with CHEM-101LQ.)
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3.00 Credits
Faculty Laboratory work related to CHEM-101. In addition to mastering basic chemistry laboratory skills, students will analyze air, water, and soil samples using a variety of techniques. Prerequisite: CHEM-101 (or concurrently). Three hours of laboratory per week. One semester hour.
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3.00 Credits
Dr. Tortorelli This course, intended for non-science majors, will examine selected topics in forensic science. Through an understanding of basic chemical principles, this course will investigate the role of science in solving crimes. Topics may include fingerprint analysis, fiber identification, blood typing and analysis, drug identification, and DNA profiling. Case studies will be used to explore the scientific foundation for the examination of physical, chemical, and biological evidence. Three hours of lecture. Three semester hours. (LS, if taken with CHEM-102LQ.) Note: A student who has received credit for CHEM-105 may not enroll in CHEM-102. CHEM-102 may not be used as elective credits for chemistry majors or minors.
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3.00 Credits
Dr. Tortorelli Laboratory work related to CHEM-102. This laboratory course will involve the analysis of trace evidence. Techniques utilized may include chromatography, fingerprinting, blood typing, fiber identification, glass analysis, mass spectrometry, and infrared spectroscopy. Students will work in investigative teams. Prerequisite: CHEM-102 (or concurrently). Three hours of laboratory per week. One semester hour.
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3.00 Credits
Faculty A study of the principles of chemistry. Topics include structure, bonding, stoichiometry, states of matter, inorganic reactions, thermochemistry, and solutions. The mathematical solution of chemical problems will be emphasized. This course must be taken concurrently with CHEM-105LQ.* Three hours of lecture per week plus one hour of recitation per week at the discretion of the instructor. Three semester hours. (LS, if taken with CHEM-105LQ.) *A student who repeats this need not also repeat its companion lecture or lab.
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3.00 Credits
Dr. Pfennig Laboratory work related to CHEM-105. Experimental work may include verification of the stoichiometric relationship between reactants and products, the preparation and characterization of compounds, titrations involving neutralization and redox reactions, measurement of enthalpies of reaction, and colorimetric analysis. The mathematical solution of chemical problems will be emphasized. This course must be taken concurrently with CHEM-105.* Three hours per week. One semester hour. *A student who repeats this need not also repeat its companion lecture or lab.
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3.00 Credits
Dr. Hess, Dr. Tortorelli An introduction to the study of the physical and chemical properties of both aliphatic and aromatic hydrocarbons within the context of modern structural theory. Areas emphasized are bonding, acidity and basicity in organic systems, stereochemistry, and reaction mechanisms. This course must be taken concurrently with CHEM- 106L.* Prerequisite: CHEM-105 or 151. Three hours per week. Three semester hours. (LS, if taken with 106L.) *A student who repeats this need not also repeat its companion lecture or lab.
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3.00 Credits
Dr. Hess, Dr. Tortorelli Laboratory work related to CHEM-106. Experimental work may include measurement of physical properties, study of reaction kinetics, and synthesis. Techniques employed include chromatography, distillation, extraction, infrared and UV/vis spectroscopy, and recrystallization. Primary and secondary literature sources are introduced. This course must be taken concurrently with CHEM-106.* Prerequisite: CHEM-105LQ or 151LQ. Three hours per week. One semester hour. *A student who repeats this need not also repeat its companion lecture or lab.
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