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Grad Catalog 03-05

CONTENTS

CHAPTER 1
Graduate Study

CHAPTER 2
Admission and
Registration

CHAPTER 3
Degree
Requirements

CHAPTER 4
Fields
of Study

CHAPTER 5
Members of
Graduate Studies
Committees

APPENDIX
Course
Abbreviations

 

    

Geological Sciences

--continued

 

Graduate Courses

The faculty has approval to offer the following courses in the academic years 2003-2004 and 2004-2005; however, not all courses are taught each semester or summer session. Students should consult the Course Schedule to determine which courses and topics will be offered during a particular semester or summer session. The Course Schedule may also reflect changes made to the course inventory after the publication of this catalog.

Unless otherwise stated below, each course meets for three lecture hours a week for one semester.

Geological Sciences: GEO

380C. Advanced Structural Geology.
Origin of earth structures, solution of advanced structural problems, newest techniques, field techniques, and field problems. Normally offered in the fall semester only. Prerequisite: Graduate standing and consent of instructor.

380E. Sedimentary Processes.
Examination of basic fluid mechanics in relation to the dynamics of bedforms and the origin of sedimentary structures. Normally offered in the spring semester only. Prerequisite: Graduate standing.

380F. Introduction to Seismology, Earthquakes, and Earth Structure.
Basic seismology theory and its application to the study of the interior of the earth (crust, mantle, and core), earthquakes, and plate tectonics. Offered irregularly. Prerequisite: Graduate standing, and Mathematics 408C or the equivalent.

380N. Sequence Stratigraphy.
Use of seismic reflection systems for quantitative stratigraphic characterization of the subsurface. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the spring semester only. Prerequisite: Graduate standing, and Geological Sciences 416M and 465K or their equivalents.

381C. Structural Petrology.
Deformation processes from atomic to macroscopic level, resultant textures and fabrics, and conditions required to produce such deformation. Three lecture hours and three laboratory hours a week for one semester. Normally offered in the spring semester only, in alternate years. Prerequisite: Graduate standing and an undergraduate course in structural geology and petrology.

381E. Brittle Structure.
Quantitative analysis of folding, faulting, and fracturing at all scales in the upper crust, with emphasis on cross-section construction, subsurface mapping, and fracture analysis. Three lecture hours a week for one semester, and several field trips. Normally offered in the spring semester only, in alternate years. Prerequisite: Graduate standing and a course in structural geology.

381K. Tectonic Problems.
Origin of regional structural features, complex and controversial structures; tectonic control of ore deposits. Offered irregularly. May be repeated for credit when the topics vary. Prerequisite: Graduate standing in geological sciences and consent of instructor.

381P. Plate Margins.
Study of the tectonics of the earth. Topics include history of early concepts, ocean spreading ridges and ophiolites, rifting, core complexes, passive margins, subduction zones, trenches, volcanic arcs, collisional orogenesis, and transform margins. Normally offered in the spring semester only. Geological Sciences 381P and 391 (Topic: Plate Margins) may not both be counted. Prerequisite: Graduate standing in geological sciences.

381R. Regional Studies in Mineral Resources Geology.
Geologic evolution of a region, with emphasis on factors that control the origin of selected mineral resources. Study area varies according to the interests of participants and other factors. Normally offered in the spring semester only. May be repeated for credit. Prerequisite: Graduate standing and consent of instructor.

382C. Groundwater Field Methods.
Basic field methods used in evaluation of groundwater conditions, with emphasis on field interpretation and on hands-on experience with geophysical, geochemical, stream-gauging, and pump test methods. Forty-five hours of field and laboratory work in a three-week period. Normally offered in the summer session only. Prerequisite: Graduate standing, and Geological Sciences 391C or consent of instructor.

382F. Fractured Rock Hydrology and Mechanics.
Introduction to the physics of flow in fractured rocks and soils; fracture mechanics; fracture skins; analysis of solute transport; and methods of characterizing and modeling fractured systems. Class field trips are an integral part of the class. Three lecture hours a week for one semester, with field trips to be arranged. Offered irregularly. Geological Sciences 382F and 391 (Topic: Fractured Rock Hydrology) may not both be counted. Prerequisite: Graduate standing in geological sciences and consent of instructor. Previous coursework in hydrogeology (such as Geological Sciences 476K or the equivalent) and mathematics (such as Mathematics 427K or the equivalent) is recommended.

382G. Global Hydrology.
Essential aspects of modern global hydrology and its interactions within climate systems, studied in the context of multidisciplinary earth system science. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the spring semester only, in alternate years. Geological Sciences 382G and 391 (Topic: Global Hydrology) may not both be counted. Prerequisite: Graduate standing in geological sciences, or graduate standing and consent of instructor.

382S. Physical Hydrology.
Comprehensive treatment of modern conceptual and methodological approaches to hydrological science. Combines qualitative understanding of hydrological processes with quantitative representation, approaches to measurement, and treatment of uncertainty. Major components of the hydrological cycle. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. Geological Sciences 382S and 391 (Topic: Physical Hydrology) may not both be counted. Prerequisite: Graduate standing in geological sciences, or graduate standing and consent of instructor.

383. Depositional Systems: Terrigenous Clastics.
The processes, characteristics, and relationships among fluvial, deltaic, shore-zone, shelf, and slope depositional systems; depositional basin analysis used in stratigraphy and economic geology. Four lecture hours a week for one semester, with two weekend field trips. Normally offered in the fall semester only. Prerequisite: Graduate standing and consent of instructor.

383C. Geology and Hydrology.
Study of the interaction of fluids with the rock matrix, with emphasis on the role of hydrology in geologic processes and the role of geology in affecting hydrologic processes. Three lecture hours a week for one semester, and several field trips. Offered irregularly. May be repeated for credit when the topics vary. Prerequisite: Graduate standing and a course in hydrogeology or hydrology.

383D. Numerical Methods I: Computational Methods in Geological Sciences.
FORTRAN programming, applications to geological problems, linear algebra, elementary signal processing, UNIX and microcomputer operating systems. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. Prerequisite: Graduate standing.

383E. Digital Methods in Hydrogeology.
Introduction to the basic finite-difference and finite-element methods; the application of digital methods to problems of hydrogeology and geophysics. Offered irregularly. Prerequisite: Graduate standing, and Geological Sciences 391C or the equivalent.

383G. Geochemistry of Sedimentary Rocks.
The hydrologic cycle, the early diagenesis, carbonate sediments, chemical sediments, and burial processes. Three lecture hours a week for one semester, with laboratory hours to be arranged. Offered irregularly. May be repeated for credit. Geological Sciences 383G and 391 (Topic: Geochemistry of Sedimentary Rocks) may not both be counted. Prerequisite: Graduate standing.

383K. Paleoecology.
Relationships of fossil animals and plants to their environments and to the sedimentary deposits in which they occur. Three lecture hours a week for one semester, with one optional field trip. Normally offered in the spring semester only, in alternate years. Prerequisite: Graduate standing.

383L. Petrography of Sandstones.
Mineralogy of sedimentary rocks; thin-section examination of sandstones, with emphasis on paleogeographic, tectonic, and environmental interpretation. Two lecture hours and four laboratory hours a week for one semester. Offered irregularly. Prerequisite: Graduate standing in geological sciences.

383M. Petrography of Carbonates.
Thin-section and hand-specimen study of mudrocks, carbonate rocks, and chemical sediments, with emphasis on paragenetic and environmental interpretation. Two lecture hours and four laboratory hours a week for one semester. Offered irregularly. Prerequisite: Graduate standing.

383N. Carbonate and Evaporite Facies and Stratigraphy.
Interpretation of genesis of evaporite and biogenic rocks from sedimentary structures, facies analyses, and vertical sequences. Three lecture hours and three and one-half laboratory hours a week for one semester. Offered irregularly. Prerequisite: Graduate standing and consent of instructor.

383R. Reservoir Geology and Advanced Recovery.
Analysis of geologic controls on composition and architecture of oil and gas reservoirs, with emphasis on reservoir heterogeneity resulting from depositional and diagenetic processes. Geological and petrophysical determinants of fluid flows and behavior. Normally offered in the fall semester only. May be repeated for credit. Geological Sciences 383R and 391 (Topic: Reservoir Geology and Advanced Recovery) may not both be counted. Prerequisite: Graduate standing; and credit or registration for Geological Sciences 380N, 383, and 383N, or consent of instructor.

383S. Sedimentary Basin Analysis.
In-depth analysis of selected topics in sedimentary systems and basin analysis. Specific topics vary from year to year. Students have the opportunity to conduct research and make presentations on assigned topics. Normally offered in the spring semester only. Prerequisite: Graduate standing, and Geological Sciences 383 or the equivalent.

384C. Geophysics I: Exploration Geophysics.
Seismic, gravity, magnetic, electrical, and electromagnetic methods of exploration for petroleum and minerals. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. Prerequisite: Graduate standing.

384D. Geophysics II: Global Geophysics.
Geophysics of the whole earth: seismic methods of inferring earth structure, chemical makeup of the earth, tides and rotational variations, geomagnetism, heat flow, earthquakes, and seismicity. Normally offered in the spring semester only. Prerequisite: Graduate standing.

384E. Seismic Migration and Inversion.
Use of the acoustic or elastic wave equation to construct subsurface images in seismic processing. Different methods of solution and data domains employed in routine applications. Investigations integral, implicit, and explicit finite differences and Fourier methods for the imaging and inversion of seismic reflection data. Offered irregularly. Geological Sciences 384E and 391 (Topic: Seismic Migration and Inversion) may not both be counted. Prerequisite: Graduate standing in geological sciences.

384M. Inverse Theory.
The representation of geophysical data, including one-, two-, and three-dimensional earth models and sampled, truncated data in one to seven dimensions. Emphasis on practical applications; application of increasingly complex data to several different problems. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. May be repeated for credit. Geological Sciences 384M and 391 (Topic: Geophysical Data Modeling and Inversion) may not both be counted. Prerequisite: Graduate standing.

384R. Data Processing I.
Convolution, Fourier transforms, probability and statistical inference, digital filters, spectral analysis, time-series modeling, linear estimation methods for over- and under-determined problems. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. Prerequisite: Graduate standing, and concurrent enrollment in Geological Sciences 383D or the equivalent.

384S. Data Processing II.
Reduction of seismic and other geophysical data from field data to final geologic cross sections, using real data sets and modeling programs. Three lecture hours and two laboratory hours a week for one semester. Offered irregularly. Prerequisite: Graduate standing, and Geological Sciences 384R or the equivalent.

385C. Geodynamics I: Plate Tectonics and Paleomagnetism.
Global tectonics; rigid plate theory; heat flow, paleomagnetic data interpretation, including field methods; marine geophysics. Offered irregularly. Prerequisite: Graduate standing.

385D. Geodynamics II: Basin Subsidence.
Modeling of basin development, including gravity, flexure, subsidence, rheology, and back-stripping methods. Normally offered in the spring semester only. Prerequisite: Graduate standing.

385E. Geodynamics III: Geodesy.
Gravity field of the whole earth, tides, rotational variation, space geodetic methods for crustal strain studies. Offered irregularly. Prerequisite: Graduate standing, and Geological Sciences 384R or the equivalent.

185G. Geophysics Colloquium.
Open to non-geological sciences majors, but registration priority is given to geological sciences majors. Exploration of a variety of problems in modern geophysics. Two lecture hours a week for one semester, and at least one weekend field trip. May be repeated for credit. Offered on the credit/no credit basis only. Geological Sciences 185G and 194 (Topic: Geophysics Colloquium) may not both be counted. Prerequisite: Graduate standing.

385K. Micropaleontology.
Morphology, classification, stratigraphic ranges, and paleoecology of Foraminifers, Ostracodes, conodonts, and other microfossils, with emphasis on economic applications to petroleum geology. Two lecture hours and four laboratory hours a week for one semester. Normally offered in the fall semester only. Prerequisite: Graduate standing in geological sciences, twelve semester hours of upper-division coursework in geological sciences, and consent of instructor.

385P. Paleophycology.
Survey of calcareous and fossil algae from the earliest record to the present. Three lecture hours and two laboratory hours a week for one semester. Offered irregularly. Geological Sciences 385P and 391 (Topic: Paleophycology) may not both be counted. Prerequisite: Graduate standing.

386. Metamorphic Petrology.
Effects of heat, pressure, and solution in rock changes; metamorphic facies concept. Two lecture hours and four laboratory hours a week for one semester. Offered in alternate years. Prerequisite: Graduate standing and consent of instructor.

386E. Economic Geology.
Origin of economic mineral concentrations within the context of their overall geologic settings; geologic aspects of economic evaluation, mining, and mineral processing; and mineral exploration. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the fall semester only. May be repeated for credit. Prerequisite: Graduate standing and consent of instructor.

386G. Geographic Information System and Global Positioning System Applications in Earth Sciences.
Theory and practice of geographic information system (GIS) and Global Positioning System (GPS) technologies, and their applications to problems in earth sciences. Laboratories and field trips provide hands-on experience with the collection, mapping, and analysis of geologic and other field data using GPS equipment and GIS software. Topics include map projections; datums and reference frames; cartographic principles; remotely sensed data (satellite and aerial photos, image radar); vector- and raster-based image formats; geospatial data resources; GIS software applications; surveying principles; GPS constellation and data structure; differential GPS; data logging schemes; GPS postprocessing software; integration of GPS and GIS in mapmaking; extant GIS applications in geology and hydrogeology. Three lecture hours and two laboratory hours a week for one semester, and two weekend field trips. Offered in the fall semester only. Geological Sciences 386G and 391 (Topic: Geographic Information System and Global Positioning System Applications in Earth Sciences) may not both be counted. Prerequisite: Graduate standing in geological sciences and consent of instructor.

386K. Igneous Petrology.
Origin, differentiation, and crystallization of igneous rocks. Three lecture hours and three laboratory hours a week for one semester. Offered in alternate years. May be repeated for credit. Prerequisite: Graduate standing and consent of instructor.

387C. Chemical Hydrogeology.
Introduction to the chemistry of water in the subsurface. Topics include basic thermodynamics and kinetics of rock-water interaction, acid-base theory, redox, and coordination chemistry. Three lecture hours and two laboratory hours a week for one semester. Normally offered in the spring semester only. May be repeated for credit. Geological Sciences 387C and 391 (Topic: Chemical Hydrogeology) may not both be counted. Prerequisite: Graduate standing, a graduate course in hydrogeology, and two semesters of college chemistry.

387E. Environmental Organic Geochemistry.
Environmental and organic chemistry of organic contaminants in groundwater and soils. Three lecture hours and one laboratory hour a week for one semester. Offered irregularly. May be repeated for credit. Geological Sciences 387E and 391 (Topic: Organic Geochemistry) may not both be counted. Prerequisite: Graduate standing and consent of instructor.

387H. Hydroclimatology.
Introduction to a broad range of physical processes that affect precipitation and evapotranspiration at the earth's surface. Local processes include thermodynamics, cloud microphysics, net radiation at the surface, fluxes of heat and moisture into the soil and the atmospheric boundary layer, and the effects of a vegetation canopy. Large-scale interactions among atmosphere, ocean, soil moisture, snow, ice biosphere, and lithosphere are reviewed in the context of potential local and large-scale transports. Methods for measuring and estimating precipitation and evapotranspiration, including general circulation models and soil-vegetation-atmosphere transfer schemes. Some basic programming/modeling techniques. Three lecture hours and two laboratory hours a week for one semester. Prerequisite: Graduate standing in geological sciences, or graduate standing and consent of instructor; and Mathematics 308M and Physics 303K, or the equivalent.

388G. Global Biogeochemical Cycles.
Examination of the major reservoirs, fluxes, and processes controlling the distribution of biologically active chemical constituents of the earth. The importance of these biogeochemical cycles in the geologic past and the effects of human perturbation of these cycles. Normally offered in the fall semester only. Geological Sciences 388G and 391 (Topic: Global Biogeochemical Cycles) may not both be counted. Prerequisite: Graduate standing in geological sciences, or graduate standing and consent of instructor.

388H. Environmental Isotope Geochemistry.
The application of the isotope and trace element geochemistry of natural waters and sediments to studies of the hydrologic cycle. Stable, radiogenic, and cosmogenic isotopes are used as tracers of the evolution of groundwater, surface water, and ocean water. Three lecture hours a week for one semester, with laboratory hours to be arranged. Normally offered in the spring semester only. May be repeated for credit. Geological Sciences 388H and 391 (Topic: Isotope Hydrology) may not both be counted. Prerequisite: Graduate standing.

388L. Isotope Geology.
Relation of isotope fractionation to earth processes; age determinations from ratios of unstable isotopes to daughter products; techniques of mass spectrometry. Normally offered in the fall semester only. Prerequisite: Graduate standing and consent of instructor.

388R. Radiogenic Isotopes and Tectonic Processes.
Offered in alternate years. Prerequisite: Graduate standing.

389K. Paleontologic Nomenclature and Techniques.
Rules of nomenclature: preparation, illustration, and description of Paleozoic invertebrate fossils. Normally offered in the spring semester only, in alternate years. Prerequisite: Graduate standing in geological sciences and consent of instructor.

389M. Vertebrate Paleontology: Mammals.
Comparative osteology and phylogenetic history of the living and extinct mammals. Two lecture hours and four laboratory hours a week for one semester. Offered in alternate years. Geological Sciences 389M and 397 may not both be counted. Prerequisite: Graduate standing in geological sciences and Geological Sciences 389V (or 396).

389P. Digital Methods in Paleontology.
The use of digital multimedia for analysis of paleontological problems, with emphasis on three-dimensional high-resolution CT data. One lecture hour and three laboratory hours a week for one semester. Normally offered in the spring semester only, in alternate years. Geological Sciences 389P and 391 (Topic: Digital Methods in Paleontology) may not both be counted. Prerequisite: Graduate standing in geological sciences.

389R. Morphology of the Vertebrate Skeleton.
Identification of skeletal elements from the major vertebrate taxa, and aspects of skeletal functional morphology, with emphasis on extant taxa. Topics include the skeletal systems of fish, amphibians, reptiles, birds, and mammals. Three lecture hours and three laboratory hours a week for one semester. Normally offered in the fall semester only, in alternate years. Only one of the following may be counted: Geological Sciences 322V, 371C (Topic: Morphology of the Vertebrate Skeleton), 389R, 391 (Topic: Morphology of the Vertebrate Skeleton). Prerequisite: Graduate standing in geological sciences; and Biology 214, Geological Sciences 404C, 405, or the equivalent, or consent of instructor.

389S. Systematics and Paleontology.
Seminar course focusing on current issues in digital/instructional technologies. Provides students with an opportunity to explore, discuss, and demonstrate issues designing, acquiring, manipulating, authoring, and publishing digital content. Students work toward completing a specific project. Offered in alternate years. Geological Sciences 389S and 391 (Topic: Systematics and Paleontology) may not both be counted. Prerequisite: Graduate standing in geological sciences and consent of instructor.

389V. Vertebrate Paleontology.
Comparative osteology and phylogenetic history of the living and extinct fishes, amphibians, and reptiles. Two lecture hours and four laboratory hours a week for one semester. Normally offered in the spring semester only, in alternate years. Geological Sciences 389V and 396 may not both be counted. Prerequisite: Graduate standing in geological sciences, and Biology 349 or the equivalent.

390D. Seismology II: General Seismology.
Advanced treatment of elastic wave propagation, ray methods, body and surface waves. Offered irregularly. Prerequisite: Graduate standing, and Geological Sciences 384R or the equivalent.

390M. Thermodynamics of Geologic Processes.
Applications of physical chemistry to natural systems; interactions of minerals, solutions, and the atmosphere. Offered in alternate years. Prerequisite: Graduate standing and consent of instructor.

191, 291, 391, 491, 591, 791, 891, 991. Seminar in Geological Sciences.
For each semester hour of credit earned, the equivalent of one class hour a week for one semester; additional hours may be required for some topics. Offered irregularly. May be repeated for credit when the topics vary. Prerequisite: Graduate standing in geological sciences. Some topics require additional prerequisites; these are identified in the Course Schedule.

391C. Physical Hydrogeology.
Geological controls on groundwater resources; evaluation of aquifers, geothermal systems, and contamination problems; natural hazards caused by human use of groundwater. Three lecture hours a week for one semester, with discussion hours to be arranged. Normally offered in the fall semester only. Prerequisite: Graduate standing and concurrent enrollment in Geological Sciences 191W.

391D. Regional Tectonics.
Development of tectonic theory culminating in the new global tectonics, and application of theory to selected orogenic areas. Offered irregularly. Prerequisite: Graduate standing in geological sciences.

391N. Analytical Techniques and Applications in Geology.
Theory of modern analytical methods and applications to geology and mineralogy; laboratory emphasis on electron microprobe and X-ray fluorescence analysis. Normally offered in the spring semester only. Prerequisite: Graduate standing in geological sciences.

391Q. Topics in Quaternary Geology.
Interdisciplinary analysis of Quaternary chronology, environments, climatic changes, and erosional-depositional processes. Offered irregularly. May be repeated for credit when the topics vary. Prerequisite: Graduate standing.

391S. Current Topics in Paleobiology.
Seminar reviewing recent publications on evolutionary and ecologic theories applied to the fossil record. Normally offered in the fall semester only. Prerequisite: Graduate standing.

391T. Paleobiogeography.
Geographic distribution of fossil organisms, history of marine communities, speciation models, and diversity analysis. Normally offered in the fall semester only. Prerequisite: Graduate standing in geological sciences.

191W. Aquifer Testing.
Techniques of aquifer evaluation, including pumping tests, laboratory techniques, field mapping, and numerical analysis. Two laboratory hours a week for one semester. Normally offered in the fall semester only. Geological Sciences 191 (Topic: Aquifer Testing) and 191W may not both be counted. Prerequisite: Graduate standing and concurrent enrollment in Geological Sciences 391C.

392M. Modern Geological Sciences.
General discussion of the entire spectrum of geological sciences. Offered in the fall semester only. Offered on the credit/no credit basis only. Geological Sciences 391 (Topic: Modern Geological Sciences) and 392M may not both be counted. Prerequisite: Graduate standing in geological sciences.

193. Technical Sessions.
Attendance required of all graduate students in geological sciences. Two lecture hours a week for one semester. Normally offered in the fall and spring semesters only. May be repeated for credit. Offered on the credit/no credit basis only. Prerequisite: Graduate standing.

194, 294, 394, 494, 594, 694, 794, 894, 994. Research in Geological Sciences.
For each semester hour of credit earned, the equivalent of one class hour a week for one semester. Offered every semester. May be repeated for credit when the topics vary. Offered on the credit/no credit basis only. Prerequisite: Graduate standing in geological sciences.

698. Thesis
The equivalent of three lecture hours a week for two semesters. Offered on the credit/no credit basis only. Prerequisite: For 698A, graduate standing in geological sciences and consent of the graduate adviser; for 698B, Geological Sciences 698A.

398R. Master's Report.
Preparation of a report to fulfill the requirement for the master's degree under the report option. The equivalent of three lecture hours a week for one semester. Offered on the credit/no credit basis only. Prerequisite: Graduate standing in geological sciences and consent of the graduate adviser.

298T. Supervised Teaching in Geological Sciences.
Open to graduate students engaged in laboratory instruction under close supervision of the course instructors. Two lecture hours a week for one semester. Normally offered in the fall semester only. Offered on the credit/no credit basis only. Prerequisite: Graduate standing and appointment as a teaching assistant.

399R, 699R, 999R. Dissertation.
Offered on the credit/no credit basis only. Prerequisite: Admission to candidacy for the doctoral degree.

399W, 699W, 999W. Dissertation.
Offered on the credit/no credit basis only. Prerequisite: Geological Sciences 399R, 699R, or 999R.

Related Courses

The following courses are described in the section "Marine Science".

Marine Science 180, 380, 680. Research in Marine Science.

Topic 3: Marine Geology.

Marine Science 384F. Marine Geology.

 


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About the Program: Geological Sciences

      

 

Graduate Catalog
Contents
Chapter 1 - Graduate Study
Chapter 2 - Admission and Registration
Chapter 3 - Degree Requirements
Chapter 4 - Fields of Study
Chapter 5 - Members of Graduate Studies Committees
Appendix - Course Abbreviations

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Office of the Registrar
University of Texas at Austin

12 August 2003. Office of the Registrar

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