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Course Criteria
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3.00 Credits
3 hours; 3 credits Written projects to be carried out in connection with field of major interest and comprehensive examination in translating to qualify for American Translators' Association certification. (Credit will be allowed for FRE 5010 or TTP 5006, not both.) This course will be offered if there is sufficient demand.
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8.00 Credits
8 credits Prerequisite: Departmental permission.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a non-mathematical presentation of the chemical principles and analysis techniques as they relate to problems of air and water pollution and to an understanding of the nature and effect of chemical additives in foods, detergents, drugs, gasoline, and other consumer products. Students who may be interested in taking more chemistry courses and/ or attending graduate or professional school in the health sciences should elect CHM 2003 in place of CHM 1000. (Not open to students who have completed CHM 2003 [2100]. This course may not be taken with the Pass/Fail option.)
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a survey of the basic principles and laboratory techniques of chemistry. Topics covered include stoichio - metry, electronic structure of atoms, chemical bonding, molecular structure, states of matter, and solutions. Recom - mended for science majors and students with strong chemistry backgrounds. (Not open to students who have taken CHM 2100.) Prerequisite: High school chemistry or departmental permission.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a study of chemical kinetics, chemical equilibrium, thermodynamics, acids and bases, ionic equilibria, oxidation and reduction reactions, electrochemistry, and coordination compounds. (Not open to students who have completed CHM 3100.) Prerequisite: CHM 2003 (2100) or departmental permission.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course deals with the properties, reactions, and synthesis of the major classes of organic compounds and functional groups, with special reference to hydrocarbons, aliphatic alcohols, ethers, carbonyls, carboxylic acids, and their derivatives; principles and applications of resonance and orbital theories, stereoisomerism, and reaction mechanisms; and spectral properties of organic compounds and their functional groups. Prerequisite: CHM 3001 (2004, 3100) or departmental permission.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a continuation of CHM 3003. The laboratory exercises include distillation, crystallization, extraction, synthesis, gas-liquid chromatography, and qualitative organic analysis. Prerequisite: CHM 3003 (4300) or equivalent.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a study of the principles and techniques of classical physical chemistry. The following topics are studied: the first and second laws of thermodynamics, real and ideal solutions, electrochemistry, kinetic theory of gases, and chemical kinetics and transport properties. The laboratory program covers physical chemical measurements, the treat - ment of experimental uncertainty, electrical measurements, and computer data processing. Prerequisites: CHM 2003 (2100) and 3001 (2004, 3100) and MTH 2610 or 2206. This course will be offered if there is sufficient demand. For students with two other upper-level (3000 or above) courses in natural sciences, this course may serve as the capstone for the Tier III requirement.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course emphasizes the study of the structure and properties of the microscopic world. The following topics are studied: quantum mechanical principles, quantum mechanics of simple systems, spectroscopy, statistical mechanics, solid state, and liquid state. The laboratory program covers physical and chemical measurements, the treatment of experimental uncertainty, electrical measurements, and computer data processing. Prerequisite: CHM 4003. Recommended: MTH 3010. This course will be offered if there is sufficient demand. For students with two other upper-level (3000 or above) courses in natural sciences, this course may serve as the capstone for the Tier III requirement.
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4.00 Credits
2 lecture hours; 4 lab hours; 4 credits This course is a study of the regulation and interrelationships of the main biochemical pathways utilized by prokaryotes and eukaryotes in maintaining cellular and organismal homeostasis. Laboratory exercises include the isolation and purification of proteins, carbohydrates, nucleic acids, and lipids. The techniques employed are titration, chromatography (paper, thin layer, and column), and electrophoresis. (Not open to students who have completed CHM 5900.) Prerequisite: CHM 3003 (4300). Corequisite: CHM 3006 (5300) or departmental permission. For students with two other upper-level (3000 or above) courses in natural sciences, this course may serve as the capstone for the Tier III requirement.
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