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CHEMISTRY 163 **311. Physical Chemistry. (4) The quantitative principles of chemistry, including gases, thermodynamics, equilibrium, quantum systems, spectroscopy and kinetics, developed by numerous problems. Prerequisites: (122L or 132L) and MATH 162 and 163 and (PHYC 151L or 161L). Corequisites: PHYC 262 and MATH 264. {Fall} *454L. Instrumental Analysis. (4) Instrumentation and applications of instrumental methods to chemical analysis, including spectrophotometric, electroanalytical, X-ray diffraction, neutron activation and chromatographic methods. Prerequisite: 253L. Two lectures, 6 hrs. lab. {Spring upon demand} **312. Physical Chemistry. (4) Continuation of 311. Prerequisite: 311. {Spring} **315. Introductory Physical Chemistry. (4) Fundamentals of physical chemistry with primary emphasis upon biological and biochemical applications. Prerequisites: (122L or 132L) and (MATH 162 or 181). (Cannot be used for credit toward a B.S.) (Credit not allowed for both 311 and 315.) {Fall} **325. Special Topics for Undergraduates. (1-3, may be repeated up to 2 times) [1-3] ∆ Possible topics are: chemical literature, environmental chemistry, photochemistry, stereochemistry, macromolecules, C-13-NMR, natural products. Can be taken twice for a maximum of 6 credit hours. {Fall upon demand} **326. Special Topics for Undergraduates. (1-3 to a maximum of 6) ∆ Possible topics are: chemical literature, environmental chemistry, photochemistry, stereochemistry, macromolecules, C-13-NMR, natural products. {Spring upon demand} **331L. Chemistry Laboratory III. (2) Integrated advanced analytical-physical chemistry laboratory, illustrating the techniques used to quantify the energetics, dynamics, composition and structure of matter. Pre- or corequisite: 311. Six hrs. lab. {Fall} **332L. Chemistry Laboratory III. (1-2) Two credits for chemistry majors, 1 credit for chemical engineers. Continuation of 331L. Prerequisite: 331L. Corequisite: 312. Six hrs. lab. {Spring} **391. Readings in Selected Topics. (1-3 to a maximum of 6) ∆ Advanced topics not covered in general offerings. {Fall upon demand} **392. Readings in Selected Topics. (1-3, may be repeated up to 2 times) [1-3] ∆ Advanced topics not covered in general offerings. Can be taken twice for a maximum of 6 credit hours. {Spring upon demand} *415L. Synthesis and Structure Determination Laboratory. (2) An integrated advanced laboratory illustrating the tools and techniques of modern synthesis and providing experience with chemical and instrumental methods of structure determination in inorganic and organic chemistry. Prerequisites: 302, 304L and 312. Corequisite: 431. Six hrs. lab. {Fall} 421./521. Biological Chemistry. (3) Brings the fundamentals of general and organic chemistry to bear on the complex array of structures and chemical processes that occur in living organisms. Prerequisite: 311 or 315. {Offered upon demand} *431. Advanced Inorganic Chemistry. (3) Survey of electronics and molecular structures of inorganic compounds, coordination chemistry, bonding theory, physical methods, periodicity and reactions. Prerequisite: 312 or 315. {Fall} *433. Chemical Applications of Group Theory. (1-3) The role of symmetry in chemical problems. Areas to be treated include representation theory, vibrational and electronic spectroscopy, molecular orbital theory and orbital control of chemical reactions. {Fall} *466. Scientific Computation. (3) The use of computers in science. Structured computer programming will be introduced and applied to scientific problem solving, data analysis, simulation, modeling and display. 471. Advanced Topics in Chemistry. (2-3 to a maximum of 6) ∆ Current topics requiring a background in physical chemistry such as spectroscopy, reaction mechanisms, advanced synthesis, polymer chemistry and materials chemistry. Prerequisites: 302 and either 315 or 311–312. {Fall upon demand} 495. Undergraduate Problems. (1-3) {Summer, Fall} 496. Undergraduate Problems. (1-3 to a maximum of 4) ∆ {Spring} 497. Senior Honors Research. (1-3 to a maximum of 4) ∆ Senior paper based on independent research. {Summer, Fall} 498. Senior Honors Research. (1-3 to a maximum of 4) ∆ Senior paper based on independent research. {Spring} *499. Chemistry Seminar–Research. (1) Offered on a CR/NC basis only. 501. Molecular Structure Theory. (3) General introduction to quantum mechanics with emphasis on chemical applications. Topics covered include basic postulates of quantum mechanics, standard analytically solvable quantum systems (free electrons, particle in a box, harmonic oscillator, rigid rotor, hydrogen atom), approximation methods (perturbation theory and the variational method). An introduction to molecular quantum mechanics, molecular spectroscopy and time-dependent perturbation theory. {Spring} 504. Chemical Dynamics. (3) A rapid review of chemical thermodynamics and kinetics. Usually for graduate students in areas outside of physical chemistry. {Fall} 511. Mechanisms in Organic Chemistry. (3) An introduction to the methods used for determining reaction mechanisms in organic chemistry and the application of those methods for determining the mechanisms of reactions based on ionic processes. {Fall} 513. Organic Molecular Structure Determination. (3) Determination of the structure of organic compounds using spectroscopic methods, especially hydrogen and carbon NMR, infrared and electronic spectroscopies and mass spectrometry. {Fall upon demand} 514. Synthesis in Organic Chemistry. (3) Development of strategies for synthesizing organic compounds including stereochemical control; introduction to advanced reactions for carbon-carbon bond formation and functional group manipulation. {Spring} 515. Topics in Organic Chemistry. (1-3 to a maximum of 6) ∆ {Fall upon demand} 516. Topics in Organic Chemistry. (1-3 to a maximum of 6) ∆ {Spring upon demand} 521./421. Biological Chemistry. (3) Brings the fundamentals of general and organic chemistry to bear on the complex array of structures and chemical processes that occur in living organisms. Prerequisite: 311 or 315. {Offered upon demand} UNM CATALOG 2006–2007 Symbols, page 611. ARTS AND SCIENCES
164 ARTS AND SCIENCES 524. X-Ray Crystallography. (3) Overview of x-ray crystallographic methods in structure determination and interpretation. {Spring upon demand} 534. Physical Methods in Inorganic Chemistry. (3) Survey of the theory and application principles of spectroscopic methods typically utilized in solving molecular and electronic structure problems in inorganic chemistry. This usually includes electronic spectroscopies, vibrational spectroscopies, magnetic resonance spectroscopies, x-ray diffraction analysis, mass spectrometry and surface spectroscopies. Prerequisites: 431 and 433. {Spring upon demand} 536. Synthesis and Mechanism in Inorganic Chemistry. (3) A general outline of synthesis methodologies and approaches for main group element and transition metal compounds is provided. In addition, the reactivity of these compounds is explored with particular emphasis on systematics in reaction mechanisms. Prerequisite: 431. {Spring upon demand} 537. Topics in Inorganic Chemistry. (1-3 to a maximum of 6) ∆ {Fall upon demand} 538. Topics in Inorganic Chemistry. (1-3 to a maximum of 6) ∆ {Spring upon demand} 540. Advanced Analytical Chemistry. (3) A study of the fundamental processes underlying the techniques of chemical analysis including thermodynamics, acid/ base chemistry and electrochemistry. {Spring} 541. Separations. (3) Theory and practice of the chemical separation techniques used for chemical analysis including chromatography and electrophoresis. {Fall upon demand} 545. Topics in Analytical Chemistry. (1-3 to a maximum of 6) ∆ {Fall upon demand} 546. Topics in Analytical Chemistry. (1-3 to a maximum of 6) ∆ {Spring upon demand} 560. Biophysical Chemistry. (3) Prerequisite: 312 or 315. {Spring upon demand} 562. Quantum Chemistry II. (3) Second course in quantum chemistry covers advanced topics in quantum dynamics spectroscopy and time-dependent phenomena. Electron transfer processes, path integral methods and scattering theory will be examined in detail. {Spring upon demand} 565. Kinetics. (3) Molecular reaction dynamics and chemical reactivity, experiment and theory; phenomenology or rates of chemical reactions and the relationship to reaction mechanism; potential energy surfaces, transition state theory and other approaches. Prerequisite: 312. {Fall upon demand} 566. Spectroscopy. (3) A graduate physical chemistry course in spectroscopy. Covers theory of atomic and molecular absorption and emission as well as applications to Fluorescence and Raman. Prerequisite: 312. {Spring upon demand} 567. Topics in Physical Chemistry. (1-3 to a maximum of 6) ∆ {Fall upon demand} 587. Advanced Topics in Biological Chemistry. (1-3 to a maximum of 6) ∆ {Offered upon demand} 599. Master’s Thesis. (1-6) Offered on a CR/NC basis only. 623. Research Colloquium. (1 to a maximum of 10) ∆ Presentation and discussion of current research by faculty from other institutions. Offered on a CR/NC basis only. 625. Chemistry Divisional Seminar. (1) ∆ Student presentations and discussion of current research by students and faculty in the same traditional division of chemistry. Offered on a CR/NC basis only. {Fall, Spring} 627. Chemistry Instrumentation Seminar. (1 to a maximum of 2) ∆ Training and practice in use of research instrumentation required by a student’s graduate research. Offered on a CR/NC basis only. 650. Research/Readings. (2-12, no limit) ∆ Offered on a CR/NC basis only. {Summer, Fall, Spring} 699. Dissertation. (3-12) Offered on a CR/NC basis only. COMMUNICATION & JOURNALISM John G. Oetzel, Chairperson Department of Communication & Journalism Communication & Journalism Room 235 MSC03 2240 1 University of New Mexico Albuquerque, NM 87131-0001 (505) 277-5305 http://www.unm.edu/~cjdept/ Professors: Mary Jane Collier, Ph.D., University of Southern California Karen A. Foss, Ph.D., University of Iowa Miguel Gandert, M. A., The University of New Mexico Bradford ‘J’ Hall, Ph.D., University of Washington Janice E. Schuetz, Ph.D., University of Colorado Associate Professors: Janet M. Cramer, Ph.D., University of Minnesota Dirk C. Gibson, Ph.D., Indiana University John G. Oetzel, Ph.D., University of Iowa Richard J. Schaefer, Ph.D., University of Utah W. Gill Woodall, Ph.D., University of Florida Assistant Professors: Glenda Balas, Ph.D., University of Iowa Patricia Covarrubias, Ph.D., University of Washington Krishna P. Kandath, Ph.D., Ohio University Pamela Lutgen-Sandvik, Ph.D., Arizona State University Virginia McDermott, Ph.D., University of Illinois Ilia Rodriguez, Ph.D., University of Minnesota Olaf Werder, Ph.D., University of Florida Lecturers: Judith Hendry, Ph.D., University of Denver Dennis Herrick, M.A., University of Iowa Karolyn Cannata-Winge, M.A., University of Missouri- Columbia Professors Emeritus: Fred V. Bales Jean M. Civikly-Powell Charles K. Coates John C. Condon, Regents’ Professor Kenneth D. Frandsen Anthony Hillerman Major Study Requirements The department offers three undergraduate degrees: Bachelor of Arts in Communication, Bachelor of Arts in Journalism, and Bachelor of Arts in Mass Communication. UNM CATALOG 2006–2007 Symbols, page 611.
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