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Course Criteria
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3.00 Credits
A continuation of CHEM 320. Covers two areas of modern physical chemistry: quantum chemistry and chemical kinetics. Topics in quantum chemistry include waves and particles, postulates of quantum mechanics, Schroedinger equation, applications with exact solutions, approximation methods, atomic structure, molecular structure, and spectroscopy. Topics in chemical kinetics include empirical laws, reaction mechanisms, and reaction rate theories. Prerequisites: CHEM 320. Credits: 3(3-0) Offered every spring
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3.00 Credits
An introduction to physical chemistry. Topics include the gas laws, the laws of thermodynamics, chemical and physical equilibria, properties of solutions, electrolytes, electrochemical cells, chemical kinetics, enzyme kinetics, and transport processes. Prerequisites: CHEM 118 and PHYS 111 and PHYS 112 and MATH 222 or MATH 228. Credits: 3(3-0) Offered every spring
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3.00 Credits
An in depth study of one or more selected topics in advanced physical chemistry with emphasis on modern concepts and recent developments. Topics for this course could include chemical thermodynamics, statistical thermodynamics, physical chemistry of solutions, atomic spectroscopy and structure, molecular spectroscopy and structure, chemical applications of group theory, quantum chemistry, kinetic molecular theory, chemical kinetics, advanced instrumental techniques. This course may be repeated for credit whenever new topics are offered. Prerequisites: CHEM 322 and/or permission of the instructor. Credits: 3(3-0) Offered when demand is sufficient
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3.00 Credits
An introduction to modern inorganic chemistry. Topics include current models used to describe periodicity, bonding, and structure, acid-base chemistry, coordination chemistry, inorganic reaction mechanisms, and an introduction to organometallic chemistry. Prerequisites: /Co-requisite: CHEM 322 or CHEM 324 or permission of instructor. Credits: 3(3- 0) Offered every spring
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3.00 Credits
This course serves to familiarize students with modern synthetic and instrumental techniques used in the preparation, characterization, and study of inorganic compounds. Prerequisites: /Co-requisite: CHEM 330. Credits: 2(0-4) Offered every spring
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3.00 Credits
This course examines the chemistry of inorganic elements in biological systems. Topics include the role of metals in proteins and enzymes, the use of metals in drug catalytic sites or as probes for biomolecular study, metals in migration and direction sensing, minerals in nutrition and toxicity, and the biochemical effects of radioactive elements. Prerequisites: CHEM 300 or CHEM 302 or BIOL 300. Credits: 3(3-0) Offered when demand is sufficient.
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3.00 Credits
Areas of current interest in the field of inorganic chemistry are explored. Topics covered include an introduction to chemical applications of group theory, organometallic compounds and catalysis, metal-metal bonding, clusters, inorganic photochemistry, and bioinorganic chemistry. Prerequisites: CHEM 330 and CHEM 322 or CHEM 324. Credits: 3(3-0) Offered when demand is sufficient
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3.00 Credits
A course to familiarize students with the theory of analytical chemistry. Particular emphasis is given to the use of instrumental methods for quantitative analysis. Topics include include calibration methods, error analysis, electroanalytical chemistry, optical and mass spectroscopy, and separation methods. Prerequisites: CHEM 216 and CHEM 213. Credits: 3(3-0) Offered every fall
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3.00 Credits
A lecture course intended to acquaint the student with the theoretical and applied aspects of modern methods of instrumental analysis, and separation. Prerequisites: CHEM 213, CHEM 214, and CHEM 322 or CHEM 324 or permission of the instructor. Credits: 3(3- 0) Offered when demand is sufficient
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3.00 Credits
A course to familiarize students with the practice of modern analytical chemistry. Particular emphasis is given experiments using instrumental methods for quantitative analysis. Experiments will include calibration methods, error analysis, and applications of electroanalytical chemistry, optical and mass spectroscopy, and separation methods. Prerequisites/ Corequisite: CHEM 340. Credits: 2(0-4) Offered every fall
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