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Civil Engineering
Engineering
2011-2012 California State University, Fresno General Catalog 305
CE 146. Urban Stormwater
Management (3)
Prerequisites: CE 128, CE 140 (or concur-rently).
Overview of stormwater manage-ment;
introduction to urban stormwater
drainage system design. Covers stormwater
management history and regulations, urban
hydrology and hydraulic design, stormwater
quality, receiving-water impacts, and best
management practices. Computer-assisted
analysis and design. (Field trips may be
required.) (2 lecture, 3 lab hours)
CE 150. Transportation
Planning and Design (3)
Prerequisite: GME 15, upper-division
standing. Geometric design of land trans-portation
facilities, primarily road/street
systems. Traffi c theory and analysis, includ-ing
statistical analysis of traffi c parameters.
Freeway and intersection capacity. Simple
transportation demand forecast. (2 lecture,
3 lab hours) FS
CE 151. Pavement Design (3)
Prerequisite: CE 123 or concurrently.
Analysis of pavement structures. Factors
affecting pavement performance. Structural
design of fl exible and rigid highway and
airfi eld pavements. Pavement rehabilitation
and repair.
CE 152. Transportation
Engineering Materials (3)
Prerequisite: CE 123. Properties and durabil-ity
of Portland cement concrete. Properties
and testing of aggregates for asphalts con-crete.
Asphalt cements and asphalt concrete
performance. Traditional and SUPERPAVE
mix design and specifi cation of asphalt
concrete.
CE 153. Traffi c Operations
and Control (3)
Prerequisite: CE 150. Transportation
studies. Highway traffi c characteristics.
Highway system traffi c analysis. Highway
system capacity design. Traffi c regulations
and control.
CE 161. Construction Engineering I (2)
Prerequisite: CE 130, permission of the in-structor.
Basics of civil engineering contract-ing,
project funding, cash fl ow, equipment
costs, engineering economics. FS
CE 180A. Project Design (2)
Prerequisites: senior standing in civil en-gineering;
permission of instructor. Civil
engineering practice, ethical issues, project
analysis, and design. Student teams complete
and orally defend proposal for a design
project that includes several civil engineering
specialties. Information gathering, time/re-source
management, and communication
skills. FS
CE 180B. Senior Project (2)
Prerequisites: CE 180A; approved project
proposal. Synthesis of previous coursework
into a civil engineering design project under
the supervision of a faculty member. Group
projects except by special permission. FS
CE 185. Civil Engineering Practice (2)
Prerequisites: senior standing in civil engi-neering
or permission of instructor. Practice
of civil engineering; transition from student
to professional engineer; engineering ethics;
business and public policy; administration
fundamentals; leadership.
CE 190. Independent Study
(1-3; max total 6)
See Academic Placement — Independent
Study. Approved for RP grading. FS
CE 191T. Topics in Civil Engineering
(1-3; max total 6)
Prerequisite: permission of instructor.
In vestigation of selected civil engineering
subjects not in current courses.
CE 193. Internship in
Civil Engineering (2-4)
Prerequisite: permission of adviser. Engi-neering
practice in a consulting, industrial,
or government work setting. Each coopera-tive
internship period usually spans a sum-mer-
fall or spring-summer interval. This
course cannot be used to meet graduation
requirements. CR/NC grading only. FS
GRADUATE COURSES
(See Catalog Numbering System.)
Civil Engineering (CE)
CE 205. Computing in
Engineering Analysis (3)
Prerequisite: graduate status in engineering.
Solution of engineering problems using digi-tal
computation. Modeling of engineering
systems for numerical analysis. F
CE 206. Engineering
Environmental Impact (3)
Evaluation of environmental impacts due
to engineering projects. The incorpora-tion
of environmental considerations into
engineering design. Alternative solutions
to engineering problems. Case histories of
selected engineering projects. S
CE 210. Research Methods (3)
Development of research skills, understand-ing
and application of the scientifi c method
in engineering research, and development
of individual research topic and proposal.
Discussion of new developments in civil
engineering science, oral presentations,
and submittal of research papers. (Formerly
CE 291T)
CE 220. Advanced
Foundation Engineering (3)
Prerequisite: graduate standing. Design of
cantilevered and anchored sheet-pile walls;
axial- and lateral-loaded pile groups; drilled
piers; pile driving stresses and wave equa-tion
analysis; beams on elastic foundations;
footings on expansive and non-uniform soils
and on rock; and case histories.
CE 223. Advanced Soil Mechanics (3)
Prerequisites: CE 123, 123L, 125, 134, or
with instructor’s approval. Covers in-depth
discussion of soil aggregates and structures,
pore water pressure, unsaturated soil me-chanics,
permeability and seepage, consoli-dation,
and shear strength. Advanced soil
testing (triaxial tests of shear strength and
fl exible-wall permeability tests) is conducted
in class. (Formerly CE 291T)
CE 225. Numerical Methods in
Geotechnical Engineering (3)
Prerequisites: CE 123 and 123L, 125, and
134, or with instructor’s approval. Covers
introduction to programming, principles
of fi nite element method, and principles
of probabilistic methods in geotechnical
engineering. Students apply various numeri-cal
methods in geotechnical applications,
(e.g., slope stability, seepage, consolidation)
by developing numerical programs and
using existing FEM software. (Formerly
CE 291T)
CE 230. Advanced Theory
of Structures (3)
Prerequisite: graduate standing in engineer-ing
or permission of instructor. Analysis of
indeterminate structures by force (fl exibility)
methods and by displacement (stiffness)
methods; Matrix methods suitable for
digital computer solutions. Virtual work,
real and complementary energy. Classical
structural theorems. Introduction to the
fi nite element method.
CE 232. Prestressed Concrete Design (3)
Prerequisite: graduate standing in engineer-ing
or permission of instructor. Structural
behavior and design of prestressed concrete
elements and systems — continuous beams,
frames, slabs. Partial prestress. (Field trip[s]
required)
CE 233. Advanced Behavior and Design
of Steel Structures (3)
Prerequisite: graduate standing in engi-neering
or permission of instructor. Mate-rial
behavior and design of basic structural
units; plate girders; connections; inelastic
buckling; composite design; plastic design;
PΔ effect. Analysis and design of continu-ous
structures, braced and unbraced frames;
Object Description
| Title | 2011-12 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2011-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 305 |
| Full Text Search | Civil Engineering Engineering 2011-2012 California State University, Fresno General Catalog 305 CE 146. Urban Stormwater Management (3) Prerequisites: CE 128, CE 140 (or concur-rently). Overview of stormwater manage-ment; introduction to urban stormwater drainage system design. Covers stormwater management history and regulations, urban hydrology and hydraulic design, stormwater quality, receiving-water impacts, and best management practices. Computer-assisted analysis and design. (Field trips may be required.) (2 lecture, 3 lab hours) CE 150. Transportation Planning and Design (3) Prerequisite: GME 15, upper-division standing. Geometric design of land trans-portation facilities, primarily road/street systems. Traffi c theory and analysis, includ-ing statistical analysis of traffi c parameters. Freeway and intersection capacity. Simple transportation demand forecast. (2 lecture, 3 lab hours) FS CE 151. Pavement Design (3) Prerequisite: CE 123 or concurrently. Analysis of pavement structures. Factors affecting pavement performance. Structural design of fl exible and rigid highway and airfi eld pavements. Pavement rehabilitation and repair. CE 152. Transportation Engineering Materials (3) Prerequisite: CE 123. Properties and durabil-ity of Portland cement concrete. Properties and testing of aggregates for asphalts con-crete. Asphalt cements and asphalt concrete performance. Traditional and SUPERPAVE mix design and specifi cation of asphalt concrete. CE 153. Traffi c Operations and Control (3) Prerequisite: CE 150. Transportation studies. Highway traffi c characteristics. Highway system traffi c analysis. Highway system capacity design. Traffi c regulations and control. CE 161. Construction Engineering I (2) Prerequisite: CE 130, permission of the in-structor. Basics of civil engineering contract-ing, project funding, cash fl ow, equipment costs, engineering economics. FS CE 180A. Project Design (2) Prerequisites: senior standing in civil en-gineering; permission of instructor. Civil engineering practice, ethical issues, project analysis, and design. Student teams complete and orally defend proposal for a design project that includes several civil engineering specialties. Information gathering, time/re-source management, and communication skills. FS CE 180B. Senior Project (2) Prerequisites: CE 180A; approved project proposal. Synthesis of previous coursework into a civil engineering design project under the supervision of a faculty member. Group projects except by special permission. FS CE 185. Civil Engineering Practice (2) Prerequisites: senior standing in civil engi-neering or permission of instructor. Practice of civil engineering; transition from student to professional engineer; engineering ethics; business and public policy; administration fundamentals; leadership. CE 190. Independent Study (1-3; max total 6) See Academic Placement — Independent Study. Approved for RP grading. FS CE 191T. Topics in Civil Engineering (1-3; max total 6) Prerequisite: permission of instructor. In vestigation of selected civil engineering subjects not in current courses. CE 193. Internship in Civil Engineering (2-4) Prerequisite: permission of adviser. Engi-neering practice in a consulting, industrial, or government work setting. Each coopera-tive internship period usually spans a sum-mer- fall or spring-summer interval. This course cannot be used to meet graduation requirements. CR/NC grading only. FS GRADUATE COURSES (See Catalog Numbering System.) Civil Engineering (CE) CE 205. Computing in Engineering Analysis (3) Prerequisite: graduate status in engineering. Solution of engineering problems using digi-tal computation. Modeling of engineering systems for numerical analysis. F CE 206. Engineering Environmental Impact (3) Evaluation of environmental impacts due to engineering projects. The incorpora-tion of environmental considerations into engineering design. Alternative solutions to engineering problems. Case histories of selected engineering projects. S CE 210. Research Methods (3) Development of research skills, understand-ing and application of the scientifi c method in engineering research, and development of individual research topic and proposal. Discussion of new developments in civil engineering science, oral presentations, and submittal of research papers. (Formerly CE 291T) CE 220. Advanced Foundation Engineering (3) Prerequisite: graduate standing. Design of cantilevered and anchored sheet-pile walls; axial- and lateral-loaded pile groups; drilled piers; pile driving stresses and wave equa-tion analysis; beams on elastic foundations; footings on expansive and non-uniform soils and on rock; and case histories. CE 223. Advanced Soil Mechanics (3) Prerequisites: CE 123, 123L, 125, 134, or with instructor’s approval. Covers in-depth discussion of soil aggregates and structures, pore water pressure, unsaturated soil me-chanics, permeability and seepage, consoli-dation, and shear strength. Advanced soil testing (triaxial tests of shear strength and fl exible-wall permeability tests) is conducted in class. (Formerly CE 291T) CE 225. Numerical Methods in Geotechnical Engineering (3) Prerequisites: CE 123 and 123L, 125, and 134, or with instructor’s approval. Covers introduction to programming, principles of fi nite element method, and principles of probabilistic methods in geotechnical engineering. Students apply various numeri-cal methods in geotechnical applications, (e.g., slope stability, seepage, consolidation) by developing numerical programs and using existing FEM software. (Formerly CE 291T) CE 230. Advanced Theory of Structures (3) Prerequisite: graduate standing in engineer-ing or permission of instructor. Analysis of indeterminate structures by force (fl exibility) methods and by displacement (stiffness) methods; Matrix methods suitable for digital computer solutions. Virtual work, real and complementary energy. Classical structural theorems. Introduction to the fi nite element method. CE 232. Prestressed Concrete Design (3) Prerequisite: graduate standing in engineer-ing or permission of instructor. Structural behavior and design of prestressed concrete elements and systems — continuous beams, frames, slabs. Partial prestress. (Field trip[s] required) CE 233. Advanced Behavior and Design of Steel Structures (3) Prerequisite: graduate standing in engi-neering or permission of instructor. Mate-rial behavior and design of basic structural units; plate girders; connections; inelastic buckling; composite design; plastic design; PΔ effect. Analysis and design of continu-ous structures, braced and unbraced frames; |
