| Disclaimer: The course
information below is current as of October 15, 2003, is intended for
informational purposes only, and does not constitute a legal contract
between the University of Utah and any person or entity.
This Web document is updated twice a year, on or about the first day of
registration for Fall and Spring semesters.
1000 Introduction to Civil and Environmental
Engineering (2)
An overview of the profession of civil and environmental engineering,
including the major elements of the profession, a basic understanding of the
core disciplines, and ideas surrounding design.
1010 Enginering Drawing (1)
2000 Sophomore Seminar (0.5)
Selected presentations from individuals who deal with different aspects
of the practice of civil and environmental engineering.
2110 Statics (3) Prerequisite: MATH 1210.
Co-requisite: MATH 1220 and PHYCS 2210.
Forces, moments and couples; resultants and static equilibrium of general
force systems; statically equivalent force systems, center of gravity and
center of pressure; friction; free body method of analysis; trusses and
frames; internal forces (shearing forces and bending moments); tensile and
compressive axial forces; applications to simple engineering problems.
2120 Graphical Communication (3)
Drafting techniques, detailed construction drawings, and technical
illustrations. Solution to three-dimensional problems. Introduction to
computer-aided drawing (CAD) and geographical information systems (GIS).
2130 Statistics/Economics (3) Prerequisite:
MATH 1220.
Introductory probability and statistics topics that are relevant to civil
and environmental engineering, including set terminology and theory,
fundamental axioms of probability, conditional probability, statistical
independence. Bayes' theorem, deMorgan's rule, random variables, probability
mass, density and distribution functions, moments, measures of central
tendency and dispersion, common discrete and continuous probability
functions, data compression, frequency distributions, point estimation, and
confidence intervals. Fundamental engineering economics topics, including
equivalence, compound interest and discount rate factors, nominal and
effective interest rates, cash flow diagrams, capitalized cost, net present
worth analysis, equivalent uniform annual cost, internal rate of return,
benefit-cost analysis, basic microeconomics, cost estimation, and cost
indexes.
2131 Engineering Probability & Statistics
(1.5) Prerequisite: MATH 1220.
Half semester course. Meets with CVEEN 2130 during the first half of the
semester. Introductory probability and statistics topics that are relevant
to civil and environmental engineering, including set terminology and
theory, fundamental axioms of probability, conditional probability,
statistical independence, Bayes' theorem, deMorgan's rule, random variables,
probability mass, density and distribution functions, moments, measures of
central tendency and dispersion, common discrete and continuous probability
functions, data compression, frequency distributions, point estimation, and
confidence intervals.
2132 Engineering Economics (1.5) Prerequisite:
MATH 1220.
Half-semester course. Meets with CVEEN 2130 during the second half of the
semester. Fundamental engineering economics topics, including equivalence,
compound interest and discount rate factors, nominal and effective interest
rates, cash flow diagrams, capitalized cost, net present worth analysis,
equivalent uniform annual cost, internal rate of return, benefit-cost
analysis, basic microeconomics, cost estimation, and cost indexes.
2140 Strength of Materials (3) Prerequisite:
CVEEN 2110 and MATH 1220.
Concept of stress, axial stress and strain, torsion, pure bending,
transverse loading, transformations of stress and strain, design of beams
and shafts for strength, deflection of beams, columns.
2150 Surveying and Global Positioning (3)
Prerequisite: MATH 1210.
Use of transit, level, total station, and other equipment in field
surveying. Practical astronomy, calculation procedures, state plane
coordinates, public-land division. Introduction to Global Positioning
Systems (GPS) and remote sensing.
2160 Dynamics (2) Prerequisite: CVEEN 2110.
Co-requisite: MATH 2250.
Kinematics and kinetics of particles and rigid bodies, including
position, velocity, acceleration, moving frames of reference, Newton's Law,
conservation of energy and momentum, impact, and an introduction to
vibrations.
3000 Junior Seminar (0.5) Prerequisite: CVEEN
2000.
Selected presentations from individuals who deal with different aspects
of the practice of civil and environmental engineering.
3100 Technical Communication for Engineers (3)
Prerequisite: WRTG 2010 or ESL 1060. Fulfills Upper Division Communication
Writing.
Learning to communicate orally and in writing in an essential component
of an undergraduate engineering education. The course addresses the
fundamentals or writing and reviewing technical documents, presenting
scientific information through graphs and tables, and preparing technical
presentations.
3210 Structural Analysis I (3) Prerequisite:
CVEEN 2140 and MATH 1220. Fulfills Quantitative Intensive BS.
Structural design loads with emphasis on application of specifications,
analysis of cables and arches, influence lines for beams and trusses,
deflection of structures by double-integration, moment-area, conjugate-beam,
and virtual-work methods, introduction to indeterminate structural analysis
using slope-deflection, moment-distribution, and approximate techniques.
3220 Introduction to Concrete and Steel Design
(4) Prerequisite: CVEEN 3210.
Design of reinforced concrete beams, one-way slabs, T-beams, columns, and
footings using ultimate strength theory and the ACI code. Design of
structural elements in steel, design of tension and compression members,
beams and beam columns, bolted and welded connections. Load and Resistance
Factor Design (LRFD) used.
3310 Geotechnical Engineering I (4)
Prerequisite: CVEEN 2140 and CHEM 1220 and MATH 2250.
An introduction to the fundamental geologic and engineering properties of
soils and basic soil mechanics. Topics include geologic soil processes,
phase relations, grain-size distribution, clay mineralogy, clay-water
interaction, consistency limits, fabric and structure, classification,
compaction, swelling, shrinkage, slaking, collapse, permeability, one- and
two-dimensional flow, liquefaction, consolidation and settlement, and shear
strength of cohesionless soils.
3320 Geotechnical Engineering II (3)
Prerequisite: CVEEN 3310.
An introduction to the fields of foundation engineering and
geoenvironmental engineering. Topics include shear strength of cohesive and
unsaturated soils, seepage forces, filters, lateral earth pressures and
retaining walls, slope stability, shallow foundations, clay-water
electrolyte systems, waste containment technology, compacted clay liners,
geosynthetics for waste containment applications, and an introduction to
in-situ treatment of contaminated soils and ground water.
3410 Hydraulics (3.5) Prerequisite: CVEEN 2140
and MATH 2250 and ME EN 2410. Fulfills Quantitative Intensive BS.
Hydrostatics, kinematics, energy and momentum principles, flow through
pipes and networks, water hammer, pumps, open channel flow, sewer design,
and hydraulic structures.
3420 Hydrology (3.5) Prerequisite: CVEEN 3410.
Fulfills Quantitative Intensive BS.
Hydrologic cycle and its elements including precipitation, interception,
infiltration, evapotranspiration, runoff; flood and drought analysis;
unit-hydrographs, probability and frequency analysis, routing methods;
ground water, hydrologic design procedures, watershed models.
3510 Civil Engineering Materials (3)
Prerequisite: CVEEN 2140 and MATH 2250.
Fundamental behavior and properties of various civil engineering
materials. Topics include introduction to mechanical behavior of materials,
characteristics of metals, characteristics of wood, evaluation of
aggregates, design of Portland cement concrete and asphalt concrete, and
introduction to materials testing.
3520 Transportation Engineering (4)
Prerequisite: MATH 2250 or ESL 1060 and MGEN 2400.
Introduction to the design, analysis, and planning of road transportation
systems. Highway surveys, location, and plans; geometric design; drainage
systems. Fundamentals of traffic engineering; introduction to traffic flow
theory; transportation planning, and traffic operations.
3610 Introduction to Environmental Engineering I
(3) Prerequisite: CHEM 1220 and PHYCS 2210 and MATH 2250.
Overview of the environmental engineering profession, environmental
quality measurements, regulatory overview, water and wastewater quality,
environmental chemistry, air quality, design of municipal water treatment
systems.
3620 Introduction to Environmental Engineering II
(3) Prerequisite: CVEEN 3610.
Principles of waste management and minimization, design of municipal
wastewater treatment plants, recent regulatory changes, basic design
principles of sedimentation and flotation facilities, aerobic and anaerobic
biological treatment systems, and chemical/physical/biological systems for
nutrient removal. Principles of disinfection and microbiological quality
requirements for treated wastewater.
4000 Senior Seminar (0.5) Prerequisite: CVEEN
3000.
Selected presentations from individuals who deal with different aspects
of the practice of civil and environmental engineering.
4110 Undergraduate Design Laboratory I (2)
Prerequisite: CVEEN 2140.
Team solutions to specific design problems (concrete canoe or steel
bridge). Design teams will be formed for the initial design process. After
preliminary designs are completed, a competitive evaluation of each design
will be made. The entire class will further optimize the best design and
prepare a technical paper on it, including entire construction
specifications, shop drawings, and connection details for the project.
Students may register for this course in consecutive years, but may take
graduation credit only once. Membership in the University of Utah American
Society of Civil Engineers (ASCE) student chapter is required.
4120 Undergraduate Design Laboratory II (1)
Prerequisite: CVEEN 2140 and 4110.
Students will construct the project (either steel bridge or concrete
canoe) that was designed in Undergraduate Design I. After construction, the
project will be tested. Following satisfactory performance, the project will
be taken to the Rocky Mountain Regional Conference for competition against
other universities. For those students who travel to the conference, some
additional fees may be required. Students may register for this course in
consecutive years, but may take graduation credit only once.
4890 Cooperative Education (1 to 2)
Prerequisite: Department consent required.
Students must register for CVEEN 4890 each semester they officially
participate in a full-time cooperative work experience.
4910 Professional Practice and Design (3)
Prerequisite: CVEEN 3310 and 3410 and 3510 and 3520. Co-requisite: CVEEN
3220 and 3610.
Comprehensive capstone design project.
4999 Honors Thesis/Project (3)
Restricted to students in the Honors Program working on an Honors degree.
5110 GIS Applications in Civil & Enviro.
Engineering (3)
Meets with CVEEN 6110. Geographic Information Systems are used
extensively by Civil Environmental Engineers. This course introduces GIS as
an engineering tool, focussing on the development of simple GIS using
ArcView Software. The course covers spatial data characteristics, the
fundamentals of spatial data analysis, spatial data sources for engineering
applications, and the fundamentals of generating and managing spatial data.
The course focuses on GIS applications of the power and capability of GIS,
including the role of GIS professionals in solving engineering problems.
5210 Structural Analysis II (3) Prerequisite:
CVEEN 3210.
Meets with CVEEN 6210. Reviews the analytical techniques presented in
Structural Analysis I pertaining to truss and beam structures, and expands
them to structures with several redundancies. A major portion of the course
is devoted to linear analysis of truss and frame structures using the
stiffness method.
5220 Concrete Design II (3) Prerequisite:
CVEEN 3220.
Meets with CVEEN 6220. Advanced topics in concrete design. Prestressed
concrete design; design of two-way slabs, torsional resistance design;
concrete structural systems; slender columns; seismic design considerations
using the ACI code.
5230 Steel Design II (3) Prerequisite: CVEEN
3220.
Meets with CVEEN 6230. Behavior and design of bolted and welded tension
members, beams, compression members in frames, beam-columns, concentrically
and eccentrically loaded bolt and weld groups, simple connections, moment
resistant connections, and structural systems. Extensive use of the current
AISC-LRFD design code.
5240 Reinforced Masonry/Timber Design (3)
Prerequisite: CVEEN 3220.
Meets with CVEEN 6240. Reinforced masonry design, including properties
and performance of masonry materials, design criteria and methods in
reinforced masonry, and design examples including reinforced masonry walls,
masonry columns and pilasters, and rectangular beams. Design of beams,
columns, trusses, and diaphragms in wood. Design of glue-laminated beams.
Design of wood connections. Use of timber design codes and uniform building
code.
5250 Dynamics of Structures and Earthquake
Engineering (3) Prerequisite: CVEEN 5210 and ME EN 2410.
Meets with CVEEN 6250. Analysis of response of structures to dynamic
loads with emphasis on dynamic loads due to earthquakes. Basic principles of
seismic design of structures.
5260 Applied Probability and Statistics (3)
Prerequisite: CVEEN 3510 and 3520 and MATH 2250.
Meets with CVEEN 6260. Overview of basic probability rules and axioms,
probability distributions, confidence intervals, hypothesis testing,
multi-variable problems, systems reliability. Examples and homework
assignments emphasize Civil Engineering applications.
5270 Computer-Aided Structural Analysis (3)
Prerequisite: CVEEN 5210.
Meets with CVEEN 6270. Analysis and design of structural systems under
static and dynamic conditions. Use of the computer and computer graphics
during the analysis/design process. History, overview, and techniques of
geometric modeling on computers.
5280 Wind and Snow Engineering (3)
Prerequisite: CVEEN 3220.
Meets with CVEEN 6280. Climatology and meteorology of the Earth's
boundary layer. Basic aerodynamics, structural dynamics, and principles of
stochastic loadings applicable to the wind engineering of structures. Wind
tunnel modeling of buildings and bridges. Aeroelastic and other special
problems. Snow climatology as it applies to snow loads on structures. Basis
for building and resulting codes for roof snow load estimation in structural
design. Combined wind/snow effects. Research and model studies for
one-of-a-kind structures. Lateral loads due to dynamic effects such as snow
avalanche impacts.
5310 Foundation Engineering (3) Prerequisite:
CVEEN 3320.
Meets with CVEEN 6310. Geotechnical aspects of the analysis and design of
foundations and retaining structures, including site subsurface exploration
and testing, bearing capacity and settlement of shallow foundations,
sheetpile walls and braced excavations, and deep foundations (piles).
5320 Waste Containment Systems (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 6320. Waste generation and disposal; types and
characterization of municipal and hazardous wastes, fate and transport of
contaminants with respect to containment systems, methods of soil and site
characterization at contaminated sites.
5330 Soil Dynamics (3) Prerequisite: CVEEN
3320 and ME EN 2410
Meets with CVEEN 6330. Stress-strain behavior of soil during transient
and repeated loading. Theory of wave propagation and dynamics of lumped
systems as applied to problems in soil dynamics. Liquefaction-induced
failures. Design of foundations for machinery. Effects of earthquakes on
foundations of structures. Response of soils to blast loadings.
5340 Advanced Geotechnical Testing (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 6340. Advanced laboratory and field methods of
geotechnical testing, including measurement of suction in the laboratory and
the field, borehole shear test, cone penetration test, Ko-blade, one- and
three-dimensional wetting-induced volume change tests, advanced triaxial
testing.
5350 Soil Improvement and Stabilization (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 6350. Introduction to some of the methods commonly used
to stabilize and improve the engineering properties of soils, including
overexcavation/replacement, near-surface compaction, vibro-displacement,
preloading, vertical drains, granular columns, dynamic compaction, admixture
stabilization, grouting, ground anchors, and tensile reinforcement.
5410 Water Resource Engineering (3)
Prerequisite: CVEEN 3420.
Meets with CVEEN 6410. Flood and drought frequency analysis, reservoir
and hydroplant design, operation and management of water resource systems,
regional resource development, conjunctive use, planning of urban water
supply, GIS applications.
5420 Open-Channel Flow (3) Prerequisite: CVEEN
3410.
Meets with CVEEN 6420. Open channel flow theory, flow resistance, uniform
and gradually varied flow calculations. Control structures in open channel
flow. Numerical methods.
5450 Snow Hydrology (3) Prerequisite: CVEEN
3420.
Meets with CVEEN 6450. Physical attributes and distribution of the
Earth's seasonal snow water resources. Climatology and meteorology of
seasonal snowpacks. Classical and modern methods for establishing snow water
equivalents (SWE). Research on future SWE measuring techniques, including
aircraft and satellite methods. Techniques for forecasting snowmelt runoff.
5470 Surface Water Quality Prediction and
Assessment (3) Prerequisite: CVEEN 5610.
Meets with CVEEN 6470. Fundamentals of surface water quality, water
quality measurements, simple reactor models; development, calibration, and
application of water quality models for dissolved oxygen, nutrient, and
toxic substances concentrations.
5510 Highway Design (3) Prerequisite: CVEEN
3520.
Meets with CVEEN 6510. Design and layout of highway systems: horizontal
and vertical alignment, phasing, design of intersections, earthwork
optimization.
5530 Quantitative Methods in Transportation
Operation (3) Prerequisite: CVEEN 3520 or URBPL 3250.
Meets with CVEEN 6530. Quantitative methods in transportation
studies-operations research techniques, linear programming, forecasting,
queuing theory. Flow optimization algorithms.
5540 Community Transportation (3) Cross listed
as URBPL 5720. Prerequisite: CVEEN 3520 or instructor consent.
Meets with CVEEN 6540. A service-learning course that addresses real
community traffic and transportation issues. Students work with neighborhood
and community groups.
5550 Pavement Distress and Rehabilitation (3)
Prerequisite: CVEEN 3510, 3520.
Meets with CVEEN 6550. A study in the cause and effect of distresses that
affect both flexible and rigid pavements, including potholes, cracks, ruts,
joint faulting, etc. Evaluation of the relationship between material
selection, traffic loads, environment, and pavement performance. Development
of condition surveys and non-destructive testing as methods for selection
rehabilitation techniques. Introduction to pavement management systems.
5555 Environmental Engineering Seminar (0.5)
Cross listed as GEO 5555, CHFEN 5555, MET E 5555, MG EN 5555.
Provides students the opportunity to meet with and learn from
environmental engineering practitioners and researchers during a series of
informal lectures and discussions. Meets with GEO 6555, CHFEN 6557, CVEEN
6555, MET E 6555, MG EN 6555.
5560 Transportation Planning (3) Prerequisite:
CVEEN 2130 and 3520.
Meets with CVEEN 6560. Transportation systems planning and its
application to real-world highway and public transport problems.
5570 Pavement Design (3) Prerequisite: CVEEN
3320 and 3510 and 3520.
Meets with CVEEN 6570. Mechanistic pavement design for flexible and rigid
pavements. Analysis of stresses and deflections in pavement system.
Evaluation of AASHTO, Asphalt Institute, and Portland Cement Association
Pavement Design guides. Review of factors affecting pavement performance.
5580 Public Transportation (3) Prerequisite:
CVEEN 3520.
Meets with CVEEN 6580. This course provides a systematic coverage of
public transportation characteristics and operations. The course presents a
history of transit development in the U.S., an overview of trends in transit
ridership, a review of transit systems and their usage worldwide, the
fundamentals of transit vehicle motion, bus operating and performance
characteistics, and rail transit supply characteristics.
5600 Solid and Hazardous Waste Engineering (3)
Prerequisite: CVEEN 3620.
Meets with CVEEN 6600. Refuse quantities and composition; design and
operation of collection systems; resource recovery, pyrolysis, composting
and incineration; sludge handling; hazardous waste problems and disposal.
5603 Biochemical Engineering (3) Cross listed
as CHFEN 5103. Prerequisite: CVEEN 3610 or CHFEN 3553 Recommended
Prerequisite or Co-requisite: BIOL 2020 and CVEEN 5604.
Meets with CVEEN 6603/CHFEN 6103. Introductory course in biochemical
engineering and bioprocessing. Cell biology, enzyme kinetics, bioreactors,
bioseparations and bioprocessing in relation to the medical, pharmaceutical,
environmental, and biochemical industries.
5604 Biochemical Engineering Laboratory (1)
Cross listed as CHFEN 5104. Co-requisite: CHFEN 5603.
Meets with CVEEN 6604/CHFEN 6104. Laboratory course demonstrating the
principles of fermentation, filtration, centrifugation, chromatography, and
other biochemical principles.
5610 Water Chemistry and Laboratory Analysis
(3) Prerequisite: CVEEN 3620.
Meets with CVEEN 6610. Fundamental principles of general, analytical,
physical, and equilibrium chemistry applicable to water- and
wastewater-treatment systems.
5620 Equilibrium Processes in Aquatic Systems
(3) Prerequisite: CVEEN 5610.
Meets with CVEEN 6620. Quantitative description of important processes in
aquatic environments including precipitation and dissolution of metal oxides
and hydroxides, metal complexation, redox, and solid-solution interfacial
reactions.
5630 Ecological Systems and Engineering (3)
Prerequisite: CVEEN 3610.
Meets with CVEEN 6630. This course will give students an overview of
biological processes as they relate to engineering. The class will begin
with an overview of basic biology and move into aerobic and anaerobic
processes, microbial biology, organismal biology, and ecology. Emphasis will
be given on the role of biology and ecology on the movement and
biotransformation of environmental contaminants.
5640 Environmental Laboratory Analysis (3)
Prerequisite: CVEEN 5610.
Meets with CVEEN 6640. This course presents fundamental principles and
practical applications of modern environmental laboratory analysis with
respect to atomic spectroscopy (AA), molecular spectroscopy (UV), gas
chromatography (GC), and gas chromatography-mass spectrometry (GC-MS). This
course will emphasize techniques in trace (low concentration) analysis.
Lectures and text readings cover basic concepts of environmental analysis
and the fundamental analytical principles.The laboratory sessions will
utilize modern analytical equipment; students will be required to perform
experiments with each instrument.
5650 Biological Treatment (3) Prerequisite:
CVEEN 3620.
Meets with CVEEN 6650. Principles of enzyme and biochemical kinetics,
aerobic and anaerobic treatment, sludge disposal, stream analysis, process
design and operation.
5680 Environmental Flow and Transport (3)
Prerequisite: CVEEN 3410 and 3620.
Meets with CVEEN 6680. Mass transport of passive contaminants in rivers
and streams.
5700 Nuclear Engineering I with Laboratory (4)
Cross listed as CHFEN 5657. Prerequisite: MATH 2250 and PHYCS 2210.
Meets with CVEEN 6700/CHFEN 6657. Fundamentals of nuclear engineering and
science; nuclear reactions, radioactive decay, neutron diffusion, kinetics,
energy removal, shielding, health physics, and system design. Includes
Laboratory.
5710 Applied Nuclear Engineering with Laboratory
(4) Prerequisite: CVEEN 5700.
Meets with CVEEN 6710. Analysis, control, and design of nuclear systems;
radioactive waste management, environmental restoration and disposal.
Includes laboratory.
5810 Cost Estimating and Proposal Writing (3)
Prerequisite: CVEEN 2130.
Meets with CVEEN 6810. Quantity take-off; cost indexing; determination of
construction, project, and indirect costs; development of bid proposals.
Development of cost proposals for engineering project management services.
Survey of cost estimating/project management software tools.
5820 Project Scheduling (3)
Meets with CVEEN 6820. Critical path methods, resource balancing,
influence of probability on time and cost (PERT), network techniques, case
studies, computer applications.
5830 Project Management and Contract
Administration (3)
Meets with CVEEN 6830. Construction management processes; basic time and
cost methodologies for planning; scheduling and controlling the use of
labor, equipment, and materials; financial and accounting systems used in
the construction industry.
5850 Engineering Law and Contracts (3) Cross
listed as ME EN 5000.
Meets with CVEEN 6850. Designed to provide science and engineering
students with a sufficient knowledge of law to enable them to recognize and
deal with legal problems which may arise in the fields of science,
engineering, or technical management. Topics covered include courts, trial
procedures, evidence, contract law, engineering contracts, agency, patents,
trademarks, copyrights, trade secrets, product liability, employer/employee
law, business law including corporations, partnerships, joint ventures, etc.
5920 Special Topics (1 to 4)
5930 Independent Study (1 to 5)
6110 GIS Applications in Civil & Enviro.
Engineering (3) Prerequisite: Graduate standing required.
Meets with CVEEN 5110. Geographic Information Systems are used
extensively by Civil Environmental Engineers. This course introduces GIS as
an engineering tool, focussing on the development of simple GIS using
ArcView Software. The course covers spatial data characteristics, the
fundamentals of spatial data analysis, spatial data sources for engineering
applications, and the fundamentals of generating and managing spatial data.
The course focuses on GIS applications of the power and capability of GIS,
including the role of GIS professionals in solving engineering problems.
6210 Structural Analysis II (3) Prerequisite:
CVEEN 3210.
Meets with CVEEN 5210. Structural design loads with emphasis on
application of specifications, analysis of cable and arches, influence lines
for beams and trusses, deflection of structures by double-integration,
moment-area, conjugate-beam, and virtual-work methods, introduction to
indeterminate structural analysis using slope-deflection,
moment-distribution, and approximate techniques.
6220 Concrete Design II (3) Prerequisite:
CVEEN 3220.
Meets with CVEEN 5220. Advanced topics in concrete design. Prestressed
concrete design; design of two-way slabs, torsional resistance design;
concrete structural systems; slender columns; seismic design considerations
using the ACI code.
6230 Steel Design II (3) Prerequisite: CVEEN
3220.
Meets with CVEEN 5230. Behavior and design of bolted and welded tension
members, beams, compression members in frames, beam-columns, concentrically
and eccentrically loaded bolt and weld groups, simple connections, moment
resistant connections, and structural systems. Extensive use of the American
Institute of Steel Construction's Load and Resistance Factor Design (AISC-LRFD)
design code.
6240 Reinforced Masonry/Timber Design (3)
Prerequisite: CVEEN 3220.
Meets with CVEEN 5240. Reinforced masonry design including properties and
performance of masonry materials, design criteria and methods in reinforced
masonry, and design examples, including reinforced masonry walls, masonry
columns and pilasters, and rectangular beams. Design of beams, columns,
trusses, and diaphragms in wood. Design of glue-laminated beams. Design of
wood connections. Use of timber design codes and Uniform Building Code.
6250 Dynamics of Structures and Earthquake
Engineering (3) Prerequisite: CVEEN 5210 or 6210 and ME EN 2410.
Meets with CVEEN 5250. Analysis of response of structures to dynamic
loads with emphasis on dynamic loads due to earthquakes. Basic principles of
seismic design of structures.
6260 Applied Probability and Statistics (3)
Prerequisite: CVEEN 3510 and 3520 and MATH 2250.
Meets with CVEEN 5260. Overview of basic probability rules and axioms,
probability distributions, confidence intervals, hypothesis testing,
multi-variable problems, systems reliability. Examples and homework
assignments emphasize Civil Engineering applications.
6270 Computer-Aided Structural Analysis (3)
Prerequisite: CVEEN 5210 or 6210.
Meets with CVEEN 5270. Analysis and design of structural systems under
static and dynamic conditions. Use of the computer and computer graphics
during the analysis/design process. History, overview, and techniques of
geometric modeling on computers.
6280 Wind and Snow Engineering (3)
Prerequisite: CVEEN 3220.
Meets with CVEEN 5280. Climatology and meteorology of the Earth's
boundary layer. Basic aerodynamics, structural dynamics, and principles of
stochastic loadings applicable to the wind engineering of structures. Wind
tunnel modeling of buildings and bridges. Aeroelastic and other special
problems. Snow climatology as it applies to snow loads on structures. Basis
for and resulting building codes for roof snow load estimation in structural
design. Combined effects of wind and snow. Research and model studies for
one-of-a-kind structures. Lateral loads due to dynamic effects such as snow
avalanche impact.
6310 Foundation Engineering (3) Prerequisite:
CVEEN 3320.
Meets with CVEEN 5310. Geotechnical aspects of the analysis and design of
foundations and retaining structures, including site subsurface exploration
and testing, bearing capacity and settlement of shallow foundations,
sheetpile walls and braced excavations, and deep foundations (piles).
6320 Waste Containment Systems (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 5320. Waste generation and disposal; types and
characterization of municipal and hazardous wastes, fate and transport of
contaminants with respect to containment systems, methods of soil and site
characterization at contaminated sites.
6330 Soil Dynamics (3) Prerequisite: CVEEN
3320 and ME EN 2410
Meets with CVEEN 5330. Stress-strain behavior of soil during transient
and repeated loading. Theory of wave propagation and dynamics of lumped
systems as applied to problems in soil dynamics. Liquefaction-induced
failures. Design of foundations for machinery. Effects of earthquakes on
foundations of structures. Response of soils to blast loadings.
6340 Advanced Geotechnical Testing (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 5340. Advanced laboratory and field methods of
geotechnical testing, including measurement of suction in the laboratory and
the field, borehole shear test, cone penetration test, ko-blade, one- and
three-dimensional wetting-induced volume change tests, advanced triaxial
testing.
6350 Soil Improvement and Stabilization (3)
Prerequisite: CVEEN 3320.
Meets with CVEEN 5350. An introduction to some of the methods commonly
used to stabilize and improve the engineering properties of soils, including
overexcavation/replacement, near-surface compaction, vibrodisplacement,
preloading, vertical drains, granular columns, dynamic compaction, admixture
stabilization, grouting, ground anchors, and tensile reinforcement.
6410 Water Resource Engineering (3)
Prerequisite: CVEEN 3420.
Meets with CVEEN 5410. Flood and drought frequency analysis, reservoir
and hydroplant design, operation and management of water resource systems,
regional resource development, conjunctive use, planning of urban water
supply, GIS applications.
6420 Open-Channel Flow (3) Prerequisite: CVEEN
3410.
Meets with CVEEN 5420. Open channel flow theory, flow resistance, uniform
and gradually varied flow calculations. Control structures in open channel
flow. Numerical methods.
6450 Snow Hydrology (3) Prerequisite: CVEEN
3420.
Meets with CVEEN 5450. Physical attributes and distribution of the
Earth's seasonal snow water resources. Climatology and meteorology of
seasonal snowpacks. Classical and modern methods for establishing snow water
equivalents (SWE). Research on future SWE measuring techniques, including
aircraft and satellite methods. Techniques for forecasting snowmelt runoff.
6470 Surface Water Quality Prediction and
Assessment (3) Prerequisite: CVEEN 5610 or 6610.
Meets with CVEEN 5470. Fundamentals of surface water quality, water
quality measurements, simple reactor models; development, calibration, and
application of water quality models for dissolved oxygen, nutrient, and
toxic substances concentrations.
6510 Highway Design (3) Prerequisite: CVEEN
3520.
Meets with CVEEN 5510. Design and layout of highway systems: horizontal
and vertical alignment, phasing, design of intersections, earthwork
optimization.
6530 Quantitative Methods in Transportation
Operation (3) Prerequisite: CVEEN 3520 or URBPL 3250.
Meets with CVEEN 5530. Quantitative methods in transportation studies:
operations research techniques, linear programming, forecasting, queuing
theory, flow optimization algorithms.
6540 Community Transportation (3)
Prerequisite: CVEEN 3520 or instructor's consent.
Meets with CVEEN 5540. A service-learning course that addresses real
community traffic and transportation issues. Students work with neighborhood
and community groups.
6550 Pavement Distress and Rehabilitation (3)
Prerequisite: CVEEN 3510, 3520.
Meets with CVEEN 5550. A study in the cause and effect of distresses that
affect both flexible and rigid pavements, including potholes, cracks, ruts,
joint faulting, etc. Evaluation of the relationship between material
selection, traffic loads, environment, and pavement performance. Development
of condition surveys and non-destructive testing as methods for selecting
rehabilitation techniques. Introduction to pavement management systems.
6555 Environmental Engineering Seminar (0.5)
Cross listed as GEO 6555, MET E 6555, CHFEN 6557, MG EN 6555.
Meets with GEO 5555, CHFEN 5555, CVEEN 5555, MET E 5555, MG EN 5555.
Seminar intended to provide students from a wide range of backgrounds with
interdisciplinary insight regarding the practice of environmental
engineering. Graduate students will submit additional work.
6560 Transportation Planning (3) Prerequisite:
CVEEN 2130 and 3520.
Meets with CVEEN 5560. Components of the process that leads to decisions
on transportation policies and programs. Elements and aspects of
transportation systems planning. Elements and aspects of transprotation
systems planning, including transportation supply elements, the land use-transprotation
relationship, and planning factors. Transportation economics and project
evaluation. Overview of the transportation demand forecasting process,
including trip generation.
6570 Pavement Design (3) Prerequisite: CVEEN
3510 and 3520.
Meets with CVEEN 5570. Mechanistic pavement design for flexible and rigid
pavements. Analysis of stresses and defections in pavement system.
Evaluation of AASHTO, Asphalt Institute, and Portland Cement Association
Pavement Design guides. Review of factors affecting pavement performance.
6580 Public Transportation (3) Prerequisite:
CVEEN 3520.
Meets with CVEEN 5580. This course provides a systematic coverage of
public transportation characteristics and operations. The course presents a
history of transit development in the U.S., an overview of trends in transit
ridership, a review of transit systems and their usage worldwide, the
fundamentals of transit vehicle motion, bus operating and performance
characteistics, and rail transit supply characteristics.
6600 Solid and Hazardous Waste Engineering (3)
Prerequisite: CVEEN 3620.
Meets with CVEEN 5600. Refuse quantities and composition; design and
operation of collection systems; resource recovery, pyrolysis, composting
and incineration; sludge handling; hazardous waste problems and disposal.
6603 Biochemical Engineering (3) Cross listed
as CHFEN 6103. Prerequisite: CVEEN 3610 or CHFEN 3553 Recommended
Prerequisite or Co-requisite: BIOL 2020 and CVEEN 5604.
Meets with CVEEN 5603/CHFEN 5103. Introductory course to biochemical
engineering and bioprocessing. Cell biology, enzyme kinetics, bioreactors,
bioseparations and bioprocessing in relation to the medical, pharmaceutical,
environmental, and biochemical industries.
6604 Biochemical Engineering Laboratory (1)
Cross listed as CHFEN 6104. Co-requisite: CVEEN 6603 or CHFEN 6103.
Meets with CVEEN 5604/CHFEN 5104. Laboratory course demonstrating the
principles of membrane systems, fermentation, tissue culture, biological
waste treatment, biosorption, and other biochemical principles.
6610 Water Chemistry and Laboratory Analysis
(3) Prerequisite: CVEEN 3620.
Meets with CVEEN 5610. Fundamental principles of general, analytical,
physical, and equilibrium chemistry applicable to water- and
wastewater-treatment systems.
6620 Equilibrium Processes in Aquatic Systems
(3) Prerequisite: CVEEN 5610 or 6610.
Meets with CVEEN 5620. Quantitative description of important processes in
aquatic environments including precipitation and dissolution of metal oxides
and hydroxides, metal complexation, redox, and solid-solution interfacial
reactions.
6630 Ecological Systems and Engineering (3)
Prerequisite: CVEEN 3610.
Meets with CVEEN 5630. This course will give students an overview of
biological processes as related to engineering. The class will begin with an
overview of basic biology and move into aerobic and anaerobic processes,
microbial biology, organismal biology, and ecology. Emphasis will be given
to the role of biology and ecology in the movement and biotransformation of
environmental contaminants.
6640 Environmental Laboratory Analysis (3)
Prerequisite: CVEEN 5610 or 6610.
Meets with CVEEN 5640. This course presents fundamental principles and
practical applications of modern environmental laboratory analysis with
respect to atomic spectroscopy (AA), molecular spectroscopy (UV), gas
chromatography (GC), and gas chromatography-mass spectrometry (GC-MS). This
course will emphasize techniques in trace (low concentration) analysis.
Lectures and text readings cover basic concepts of environmental analysis
and the fundamental analytical principles. The laboratory sessions will
utilize modern analytical equipment; students will be required to perform
experiments with each instrument.
6650 Biological Treatment (3) Prerequisite:
CVEEN 3620.
Meets with CVEEN 5650. Principles of enzyme and biochemical kinetics,
aerobic and anaerobic treatment, sludge disposal, stream analysis, process
design and operation.
6660 System Dynamics and Environmental Policy
(3) Cross listed as GEO 6340, URBPL 6370.
Environmental policy design requires an understanding of human
interactions with environmental systems. It requires an accounting of the
complexities of behavior, context and policy. These complexities often
produce indirect and unanticipated consequences. They yield unexpected
patterns and counter-intuitive results. Students from many academic fields
learn user-friendly software (STELLA) to do environmental policy simulation
without proficiency in advanced mathematics. Students use computer
simulations to sort out environmental complexities; transform group
perceptions into simulation models; apply principles of environmental
management; test policy effects and define possible pathways for future
policy change.
6661 Practicum in Environmental Systems
Sustainability (3) Cross listed as GEO 6341, URBPL 6371.
Using actual clients and a systems thinking approach, multi-disciplinary
student teams resolve real world problems in environmental sustainability.
Student teams define system structures, feedback loops, counter-intuitive
relationships and the unintended consequences of policy decisions. Students
having completed 'System Dynamics and Environmental Policy' get to apply
their experience in systems modeling in support of team efforts in
full-scale, practical problem solving. Possible topics include: urban
growth, drinking water, energy resources, air/water quality and
environmental justice.
6680 Environmental Flow and Transport (3)
Prerequisite: CVEEN 3410 and 3620.
Meets with CVEEN 5680. Mass transport of passive contaminants in rivers
and streams.
6700 Nuclear Engineering II with Laboratory
(4) Cross listed as CHFEN 6657. Prerequisite: MATH 2250 and PHYCS 2210.
Meets with CVEEN 5700/CHFEN 5657. Fundamentals of nuclear engineering and
science; nuclear reactions, radioactive decay, neutron diffusion, kinetics,
energy removal, shielding, health physics, and system design. Physical and
mathematical description of production, utilization, and loss of neutrons in
nuclear reactors and other systems. Includes laboratory.
6710 Applied Nuclear Engineering II with
Laboratory (4) Prerequisite: CVEEN 5700.
Meets with CVEEN 5710. Analysis, control, and design of nuclear systems;
radioactive waste management, medical, radiation protection, environmental
restoration and disposal. Includes laboratory.
6720 Nuclear Reactor Physics with Laboratory
(4) Prerequisite: CVEEN 5700 and 5710.
Contains neutron transport theory, multigroup diffusion, heterogeneous
systems, kinetics reactivity changes, moderation age theory, and nuclear
physics. Includes laboratory.
6730 Health Physics and Radiation Protection with
Laboratory (4) Prerequisite: CVEEN 5700 and 5710.
Covers topics in internal and external radiation dosimetry and protection
including radiation quantities and units, legal guidelines and regulations,
derivations of external dosimetry calculations, source and facility
shielding, pathways and bioassays, and contamination control. Includes
laboratory.
6740 Nuclear Environmental Engineering with
Laboratory (4) Prerequisite: CVEEN 5700 and 5710.
Introduces scientific and engineering aspects of the management of spent
fuel, reprocessed high-level waste, uranium mill tailings, low-level wastes,
and decommissioning wastes. Fundamental processes and governing equations of
radiation and radionuclide transport. Design principles and evaluation
methods for waste disposal systems. Shielding and dose calculations, interim
storage, processing, and transportation technologies. Review of nuclear
waste management regulation. Includes laboratory.
6750 Nuclear Chemical Engineering with Laboratory
(4) Prerequisite: CVEEN 5700 and 5710.
An overview of chemical and radiochemical dynamics. Principles of
chemical and physical separation processes. Technologies for the production
of nuclear fuel, moderator, and structural materials. Management of
radioactive wastes and spent fuel, including chemical processing and
disposal. Safety and nuclear safeguards. Chemistry of fission products and
actinides. Includes laboratory.
6760 Linear Acceleration Physics with Laboratory
(4) Prerequisite: CVEEN 5700 and 5710.
Introduction to pulsed RF electron linear acceleration, waveguide and
microwave theory, relativistic and scattering effects of high energy
electrons, electron and photon dosimetry. Includes laboratory with L-band
accelerator located at Little Mountain.
6810 Cost Estimating and Proposal Writing (3)
Prerequisite: CVEEN 2130.
Meets with CVEEN 5810. Quantity take-off; cost indexing; determination of
construction, project, and indirect costs; development of bid proposals.
Development of cost proposals for engineering-project management services.
Survey of cost estimating/project management software tools.
6820 Project Scheduling (3)
Meets with CVEEN 5820. Critical path methods, resource balancing,
influence of probability on the time and cost (PERT), network techniques,
case studies, computer applications.
6830 Project Management and Contract
Administration (3)
Meets with CVEEN 5830. Construction management processes; basic time and
cost methodologies; scheduling and controlling the use of labor, equipment,
and materials; financial and accounting systems used in the construction
industry.
6850 Engineering Law and Project Management
(3)
Synopsis of the law of contracts, bonds, uniform contract forms, and
particular business problems.
6920 Advanced Topics (1 to 6)
6930 Advanced Independent Study (1 to 5)
6960 Special Project: Master of Engineering (1
to 6)
6970 Thesis Research: Master's (1 to 9)
6980 Faculty Consultation (1 to 3)
7230 Advanced Topics in Steel Design (3)
Prerequisite: CVEEN 5230/6230.
Behavior and design of steel plate girders, composite beams, columns,
torsional members, partially restrained connections, gusset plates and base
plates. Seismic design considerations and techniques.
7240 Structural Dynamics (3) Pre-requisite:
CVEEN 5210/6210 and 2160 or MG EN 2410.
This course will present analytical methods for evaluating the dynamic
response of structural systems. In addition, laboratory work using an
instructional shake table will be undertaken. The course will cover software
available for linear dynamic analysis of structures and inelastic static and
dynamic analysis. The course topics include free vibration, harmoic and
periodic excitation, and step excitation of single-degree-of-freedon
systems; numerical evaluation of dynamic response using time-stepping
methods and Newmarks's methods; earthquake response of linear systems;
response and design spectra; energy dissipation devices; generalized single
degree of freedom systems; and earthquake response of inelastic systems.
7250 Structural Earthquake Engineering (3)
Prerequisite: CVEEN 5250 or 6250.
Principles of earthquake engineering as applied to structural analysis
and design, earthquake response spectral principles in both the elastic and
inelastic design spectra, single degree of freedom systems, multiple degree
of freedom frame systems, modal equations and modal response contributions,
spectral analysis and design of multi-story buildings.
7255 Advanced Dynamics of Structures (3)
Prerequisite: CVEEN 5250 or 6250.
The course presents analytical methods for multiple degree of freedom
dynamic structural systems; topics include inelastic design spectrum;
Rayleigh's method for natural vibration frequency; Lagrange's equation of
motion; static condensation method; orthogonality of vibration modes;
classical dumping; modal damping matrices; displacement superposition
method; modal response contributions, modal expansion of excitation vector;
modal equations and responses; response spectrum analysis; time stepping
methods including Newmark's method and Wilson's method; influence of period
and beam-to-column stiffness ratio on modal contribution factors; allowable
ductility and ductility demand; base isolated buildings; structural dynamics
in the building codes; comparison of building codes; and displacement-based
design using elastic and inelastic design spectra.
7270 Advanced Computer-Aided Structural Analysis
(3) Prerequisite: CVEEN 5270 or 6270.
Special topics in the analysis and design of structural systems using
computers. Procedures for determining dynamic response, structural buckling,
and P-Delta effects. Three dimensional and solid geometric modeling on the
computer.
7310 Advanced Foundation Engineering (3)
Prerequisite: CVEEN 3220 and 5310 or 6310
An in-depth look into the geotechnical and structural aspects of
foundation engineering. Topics covered include theories for ultimate bearing
capacity, beams on elastic foundations, special footings, mat foundations,
lateral earth pressures induced by surcharge loadings, excavation support,
arching theory, finite element analyses of sheetpile walls and braced
excavations, uplift piles, laterally loaded piles, pile groups, and drilled
piers and caissons.
7330 Geotechnical Earthquake Engineering (3)
Prerequisite: CVEEN 5330 or 6330.
Seismicity, influence of soil conditions on site response, seismic site
response analysis, evaluation and modeling of dynamic soil properties,
analysis of seismic soil-structure interaction, evaluation and mitigation of
soil liquefaction and its consequences, seismic code provisions and
practice, seismic earth pressures, seismic slope stability and deformation
analysis, seismic safety of dams and embankments, seismic performance of
pile foundations, and additional current topics.
7360 Advanced Soil Mechanics (3) Prerequisite:
CVEEN 5310 or 6310.
Advanced topics in soil mechanics.
7380 Numerical Modeling in Geotechnical
Engineering (3) Prerequisite: CVEEN 5310 or 6310.
Constitutive laws for geotechnical materials including inelastic
hyperbolic and elastoplastic Cam-Clay; soil behavior and critical state soil
mechanics; application of the finite element method to static analysis of
earth structures. Finite difference methods for solutions to partial
differential equations that apply to geotechnical engineering, including
random walks, consolidation, fluid flow, and contaminant transport.
7460 Groundwater Modeling (4) Prerequisite:
GEO 5360.
Introduction to the fundamentals of ground water; specifically the
purpose and background of ground water modeling, development of equations
describing ground water flow and solute transport, definition of boundary
value problems, closed-form analytical models, finite difference flow
simulation, model selection, limitations and misuse, MODFLOW and other
ground water flow models.
7470 Systems Analysis Applications in Water
Resources and Environmental Engineering (3) Prerequisite: CVEEN 5410 or
6410.
Optimization of water resources and environmental systems, waste water
treatment, and storm water collection.
7520 Transportation Safety (3) Prerequisite:
CVEEN 6520 or equivalent.
Among the unfortunate by-products of transportation are the numerous
injuries and losses of life that are incurred each year. Since 94% of the
transportation fatalities in the U.S. are highway-related, the course
emphasizes motor vehicle travel. Other modes of transport and safety-related
issues are discussed, as well. The purpose of this course is to encourage
the student to consider the safety implications of both existing and new
transportation projects, to appreciate the numbers of injuries and
fatalities experienced on transportation facilities, to engage in the
analysis of safety statistics, and to begin to think about mitigating
strategies and treatments.
7540 Intelligent Transportation Systems (3)
Prerequisite: CVEEN 3520.
The vehicle, the systems, the driver, information technology
transportation, telecommunications, ITS infrastructure, ITS architecture.
7545 Transportation Modeling (3) Prerequisite:
CVEEN 5530 or 6530.
Transportation model study and development, definition, construction,
calibration, validation, taxonomy of models, the modeling process.
7550 Transportation Infrastructure Maintenance
(3) Prerequisite: CVEEN 3510, 3520.
This course provides an advanced, analytical approach to transportation
infrastructure maintenance. The course begins with an overview of
infrastructure management issues, continues with a focus on winter road
maintenance, presents multiple techniques in performance modeling, including
regression analysis, Markov decision processes, Bayesian modeling and
econometrics, and concludes with an emphasis on project prioritization and
optimization.
7560 Advanced Construction Materials (3)
Prerequisite: CVEEN 3510.
Recycled construction materials, latex modified concrete, polymerized
asphalt.
7570 Pavement Maintenance and Rehabilitaion
(3) Prerequisite: CVEEN 5570 or 6570.
A study in the cause and effect of distresses that affect both flexible
and rigid pavements, including potholes, cracks, ruts, joint faulting, etc.
Evaluation of the relationship between material selection, traffic loads,
environment, and pavement performance. Development of condition surveys and
non-destructive testing as methods for selection rehabilitation techniques.
Analysis of currently used rehabilitation and maintenance techniques.
Introduction to pavement management systems.
7580 Advanced Technical Communication (1)
Prerequisite: WRTG 2010 or equivalent.
First course in a two course series intended to provide assistance to
graduate students to prepare quality draft papers, review the papers, and
prepare a final paper for submission.
7581 Advanced Technical Communication (1)
Prerequisite: CVEEN 7580.
Second course in a two course series intended to provide assistance to
graduate students to prepare quality draft papers, review the papers, and
prepare a final paper for submission.
7600 Environmental Engineering Seminar (1)
Guest lecturers on current environmental engineering topics. Presentation
of graduate and faculty research.
7610 Advanced Bioprocess Systems (3)
Prerequisite: CVEEN 5650 or 6650.
Advanced bioprocess kinetics. Development and application of theory to
aerobic and anaerobic systems and process modifications. Conventional and
novel reactor systems. Advanced process design and system analysis.
7620 Physical and Chemical Treatment Processes for
Water Quality Control (3) Prerequisite: CVEEN 5610 or 6610.
Theory and application of physical and chemical methods for treatment of
water, wastewater, hazardous waste, and contaminated soil.
7650 Modeling Environmental Systems (3)
Prerequisite: CVEEN 3620.
Development and application of mathematical models for predicting
environmental changes in natural and engineered systems. Detailed
consideration of models for adsorption, biodegradation, mass transport,
momentum transport, heat transport, chemical processes, and sedimentation
processes.
7680 Design of Municipal Water and Wastewater
Treatment Systems (3) Prerequisite: CVEEN 7610 and 7620.
Basic parameters and elements of design; layout and design of water
distribution and sewage systems, pumping stations, and water and wastewater
treatment plants; cost and financing; existing plant expansions.
7690 Design of Industrial Water and Wastewater
Systems (3) Prerequisite: CVEEN 7610 and 7620.
Industrial water needs and quality, industrial wastewater
characterization and measurements. Pretreatment. Industrial wastewater
treatment techniques, design and case histories; reuse of industrial
effluents; problems and effects of industrial wastes.
7710 Advanced Nuclear Engineering Design (3)
Prerequisite: CVEEN 6720 and 6730 and 6740 and 6750.
Practice in creative engineering design and problem solving emphasizing
in-depth design of laboratory, pilot plan, and commercial-scale processes
associated with radionuclides. Content tailored to individual interests.
7720 Topics in Advanced Nuclear Phenomena (3)
Prerequisite: CVEEN 6720 and 6730 and 6740 and 6750.
Modeling and predicting advanced nuclear phenomena in nuclear engineering
and health physics using advanced analytical and numerical methods.
7910 Advanced Analysis (1 to 6)
7920 Advanced Topics (1 to 6)
7930 Advanced Independent Study (1 to 5)
7970 Thesis Research: Ph.D. (1 to 9)
7980 Faculty Consultation (1 to 3)
7990 Continuing Registration: Ph.D. (0)
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