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164 ARTS AND SCIENCES<br />
524. X-Ray Crystallography. (3)<br />
Overview <strong>of</strong> x-ray crystallographic methods in structure determination<br />
<strong>and</strong> interpretation. {Spring upon dem<strong>and</strong>}<br />
534. Physical Methods in Inorganic Chemistry. (3)<br />
Survey <strong>of</strong> the theory <strong>and</strong> application principles <strong>of</strong> spectroscopic<br />
methods typically utilized in solving molecular <strong>and</strong> electronic<br />
structure problems in inorganic chemistry. This usually<br />
includes electronic spectroscopies, vibrational spectroscopies,<br />
magnetic resonance spectroscopies, x-ray diffraction analysis,<br />
mass spectrometry <strong>and</strong> surface spectroscopies.<br />
Prerequisites: 431 <strong>and</strong> 433. {Spring upon dem<strong>and</strong>}<br />
536. Synthesis <strong>and</strong> Mechanism in Inorganic Chemistry.<br />
(3)<br />
A general outline <strong>of</strong> synthesis methodologies <strong>and</strong> approaches<br />
for main group element <strong>and</strong> transition metal compounds is<br />
provided. In addition, the reactivity <strong>of</strong> these compounds is<br />
explored with particular emphasis on systematics in reaction<br />
mechanisms.<br />
Prerequisite: 431. {Spring upon dem<strong>and</strong>}<br />
537. Topics in Inorganic Chemistry. (1-3 to a maximum<br />
<strong>of</strong> 6) ∆<br />
{Fall upon dem<strong>and</strong>}<br />
538. Topics in Inorganic Chemistry. (1-3 to a maximum<br />
<strong>of</strong> 6) ∆<br />
{Spring upon dem<strong>and</strong>}<br />
540. Advanced Analytical Chemistry. (3)<br />
A study <strong>of</strong> the fundamental processes underlying the techniques<br />
<strong>of</strong> chemical analysis including thermodynamics, acid/<br />
base chemistry <strong>and</strong> electrochemistry. {Spring}<br />
541. Separations. (3)<br />
Theory <strong>and</strong> practice <strong>of</strong> the chemical separation techniques<br />
used for chemical analysis including chromatography <strong>and</strong><br />
electrophoresis. {Fall upon dem<strong>and</strong>}<br />
545. Topics in Analytical Chemistry. (1-3 to a maximum<br />
<strong>of</strong> 6) ∆<br />
{Fall upon dem<strong>and</strong>}<br />
546. Topics in Analytical Chemistry. (1-3 to a maximum<br />
<strong>of</strong> 6) ∆<br />
{Spring upon dem<strong>and</strong>}<br />
560. Biophysical Chemistry. (3)<br />
Prerequisite: 312 or 315. {Spring upon dem<strong>and</strong>}<br />
562. Quantum Chemistry II. (3)<br />
Second course in quantum chemistry covers advanced topics<br />
in quantum dynamics spectroscopy <strong>and</strong> time-dependent<br />
phenomena. Electron transfer processes, path integral methods<br />
<strong>and</strong> scattering theory will be examined in detail. {Spring<br />
upon dem<strong>and</strong>}<br />
565. Kinetics. (3)<br />
Molecular reaction dynamics <strong>and</strong> chemical reactivity, experiment<br />
<strong>and</strong> theory; phenomenology or rates <strong>of</strong> chemical<br />
reactions <strong>and</strong> the relationship to reaction mechanism;<br />
potential energy surfaces, transition state theory <strong>and</strong> other<br />
approaches.<br />
Prerequisite: 312. {Fall upon dem<strong>and</strong>}<br />
566. Spectroscopy. (3)<br />
A graduate physical chemistry course in spectroscopy.<br />
Covers theory <strong>of</strong> atomic <strong>and</strong> molecular absorption <strong>and</strong> emission<br />
as well as applications to Fluorescence <strong>and</strong> Raman.<br />
Prerequisite: 312. {Spring upon dem<strong>and</strong>}<br />
567. Topics in Physical Chemistry. (1-3 to a maximum<br />
<strong>of</strong> 6) ∆<br />
{Fall upon dem<strong>and</strong>}<br />
587. Advanced Topics in Biological Chemistry. (1-3 to a<br />
maximum <strong>of</strong> 6) ∆<br />
{Offered upon dem<strong>and</strong>}<br />
599. Master’s Thesis. (1-6)<br />
Offered on a CR/NC basis only.<br />
623. Research Colloquium. (1 to a maximum <strong>of</strong> 10) ∆<br />
Presentation <strong>and</strong> discussion <strong>of</strong> current research by faculty<br />
from other institutions. Offered on a CR/NC basis only.<br />
625. Chemistry Divisional Seminar. (1) ∆<br />
Student presentations <strong>and</strong> discussion <strong>of</strong> current research by<br />
students <strong>and</strong> faculty in the same traditional division <strong>of</strong> chemistry.<br />
Offered on a CR/NC basis only. {Fall, Spring}<br />
627. Chemistry Instrumentation Seminar. (1 to a maximum<br />
<strong>of</strong> 2) ∆<br />
Training <strong>and</strong> practice in use <strong>of</strong> research instrumentation<br />
required by a student’s graduate research. Offered on a<br />
CR/NC basis only.<br />
650. Research/Readings. (2-12, no limit) ∆<br />
Offered on a CR/NC basis only. {Summer, Fall, Spring}<br />
699. Dissertation. (3-12)<br />
Offered on a CR/NC basis only.<br />
COMMUNICATION & JOURNALISM<br />
John G. Oetzel, Chairperson<br />
<strong>Department</strong> <strong>of</strong> Communication & Journalism<br />
Communication & Journalism Room 235<br />
MSC03 2240<br />
1 University <strong>of</strong> New Mexico<br />
Albuquerque, NM 87131-0001<br />
(505) 277-5305<br />
http://www.unm.edu/~cjdept/<br />
Pr<strong>of</strong>essors:<br />
Mary Jane Collier, Ph.D., University <strong>of</strong> Southern California<br />
Karen A. Foss, Ph.D., University <strong>of</strong> Iowa<br />
Miguel G<strong>and</strong>ert, M. A., The University <strong>of</strong> New Mexico<br />
Bradford ‘J’ Hall, Ph.D., University <strong>of</strong> Washington<br />
Janice E. Schuetz, Ph.D., University <strong>of</strong> Colorado<br />
Associate Pr<strong>of</strong>essors:<br />
Janet M. Cramer, Ph.D., University <strong>of</strong> Minnesota<br />
Dirk C. Gibson, Ph.D., Indiana University<br />
John G. Oetzel, Ph.D., University <strong>of</strong> Iowa<br />
Richard J. Schaefer, Ph.D., University <strong>of</strong> Utah<br />
W. Gill Woodall, Ph.D., University <strong>of</strong> Florida<br />
Assistant Pr<strong>of</strong>essors:<br />
Glenda Balas, Ph.D., University <strong>of</strong> Iowa<br />
Patricia Covarrubias, Ph.D., University <strong>of</strong> Washington<br />
Krishna P. K<strong>and</strong>ath, Ph.D., Ohio University<br />
Pamela Lutgen-S<strong>and</strong>vik, Ph.D., Arizona State University<br />
Virginia McDermott, Ph.D., University <strong>of</strong> Illinois<br />
Ilia Rodriguez, Ph.D., University <strong>of</strong> Minnesota<br />
Olaf Werder, Ph.D., University <strong>of</strong> Florida<br />
Lecturers:<br />
Judith Hendry, Ph.D., University <strong>of</strong> Denver<br />
Dennis Herrick, M.A., University <strong>of</strong> Iowa<br />
Karolyn Cannata-Winge, M.A., University <strong>of</strong> Missouri-<br />
Columbia<br />
Pr<strong>of</strong>essors Emeritus:<br />
Fred V. Bales<br />
Jean M. Civikly-Powell<br />
Charles K. Coates<br />
John C. Condon, Regents’ Pr<strong>of</strong>essor<br />
Kenneth D. Fr<strong>and</strong>sen<br />
Anthony Hillerman<br />
Major Study Requirements<br />
The department <strong>of</strong>fers three undergraduate degrees:<br />
Bachelor <strong>of</strong> Arts in Communication, Bachelor <strong>of</strong> Arts in<br />
Journalism, <strong>and</strong> Bachelor <strong>of</strong> Arts in Mass Communication.<br />
UNM CATALOG 2006–2007 Symbols, page 611.