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Civil and Geomatics Engineering and Construction
284 2001-2002 California State University, Fresno General Catalog
128. Civil Engineering Hydraulics (3)
Prerequisite: C E 85 or concurrently and
M E 112 or concurrently. Fundamentals of
civil engineering hydraulics with applica-tion
to hydraulic structures.
129. Engineering Hydraulics Lab (1)
Prerequisite: C E 128 or concurrently.
Experiments and demonstrations in fluid
properties, flow management, pipe flow,
open channel flow, pumps, and hydraulic
scour. (3 lab hours)
130. Theory of Structures (3)
Prerequisite: C E 121. Trusses and frames
analyzed by algebraic and graphic proce-dures;
influence lines and live loading analy-sis;
rigid frames analyzed by slope deflec-tion
and moment distribution. Introduc-tion
to matrix methods.
131. Intermediate
Theory of Structures (3)
Prerequisite: C E 130. Analysis of statically
indeterminate beams, trusses, and frames;
advanced topics in slope deflection and
moment distribution; matrix methods.
132. Reinforced Concrete Design (3)
Prerequisite: C E 130. Design of rein-forced
concrete structural elements using
the Ultimate Strength Design Method.
Introduction to the Alternate Method. In-troduction
to prestressed concrete. (2 lec-ture,
3 lab hours; field trips required)
133. Design of Steel Structures (3)
Prerequisite: C E 130. Design of steel
members and systems for buildings. De-sign
areas include: tension members, com-pression
members, beams, beam-columns,
connections and plate girders. (2 lecture, 3
lab hours)
134. Foundation Design (3)
Prerequisites: ECE 70, C E 123, 132 or
concurrently. Design and theory of spread
and continuous wall, rectangular, cantile-ver
and trapezoidal footings; earth pres-sures
and cantilever as well as gravity re-taining
walls; pile foundations; pile driving;
construction considerations; load tests; sub-surface
investigations; case histories; and
computer-aided design of foundations. (2
lecture, 3 lab hours)
135. Reinforced and Prestressed
Concrete Design (3)
Prerequisite: C E 132. Design of typical
reinforced concrete and prestressed con-crete
structures. (2 lecture, 3 lab hours;
field trips required)
136. Design of Timber Structures (3)
Prerequisite: C E 130. Design of timber
members and systems for buildings. De-sign
areas include: loads, properties of wood,
tension members, beams, columns, beam-columns,
connections, diaphragms, shear
walls, and glued laminated arches.
137. Seismic Design of Building
Structures (3)
Prerequisites: C E 130, M E 112. Effects of
earthquakes on structures. Introduction to
structural dynamics. Response of struc-tures.
Seismic provisions of building codes.
Basic concepts in seismic-resistant design.
Detailing for seismic-resistant construc-tion.
Term project. (Field trips required)
138. Structural Mechanics (3)
Prerequisite: C E 130. Energy theorems
and applications. Analysis of arches, beams
on elastic foundations, cable stayed struc-tures,
and unsymmetrical bending of beams.
Introduction to plastic theory of structures.
140. Hydrology (3)
Prerequisites: ECE 70, C E 128 or concur-rently.
The hydrologic cycle, atmospheric
conditions, precipitation, infiltration,
ground water, soil moisture, evaporation,
runoff, streamflow, hydrographs, flood
routing, hydrologic statistical analysis; ap-plications
to water resources planning and
management. (Field trips required)
141. Water Resources Engineering (3)
Prerequisites: C E 128, 142 (or concur-rently),
I E 160 (or concurrently), M E 26.
Hydraulic design of water distribution,
sewerage, and drainage systems. Computer-assisted
pipe network analysis. Pump ap-plications.
(2 lecture, 3 lab hours; field
trips required)
142. Environmental Engineering (3)
Prerequisites: CHEM 1A; C E 128 or
concurrently. Introduction to the prin-ciples
and practices of environmental qual-ity
management, including water and air
quality, waste management, and the envi-ronmental
effects of engineered systems.
142L. Environmental
Quality Laboratory (1)
Prerequisite: C E 142 or concurrently.
Study and analysis of physical, chemical,
and biological characteristics of air, water,
and solid wastes. (Field trips required)
143. Engineering Hydraulics (3)
Prerequisite: C E 128. Design of pressure-conduit
and open-channel flow systems
with applications to hydraulic structures
and control works, hydraulic power con-version,
sediment transport, and channel
stabilization.
144. Design of Water Quality
Control Processes (3)
Prerequisites: C E 142 or permission of
instructor; I E 160 (or concurrently). Analy-sis
and design of selected physical, chemi-cal,
and biological facilities for water puri-fication
and wastewater treatment. (2 lec-ture,
2 lab hours) (Field trips required)
150. Transportation
Planning and Design (3)
Prerequisite: G M E 15, upper-division
standing. Geometric design of land trans-portation
facilities, primarily road/street
systems. Traffic theory and analysis, in-cluding
statistical analysis of traffic param-eters.
Freeway and intersection capacity.
Simple transportation demand forecast. (2
lecture, 3 lab hours)
151. Pavement Design (3)
Prerequisite: C E 123 or concurrently.
Analysis of pavement structures. Factors
affecting pavement performance. Struc-tural
design of flexible and rigid highway
and airfield pavements. Pavement rehabili-tation
and repair.
152. Transportation
Engineering Materials (3)
Prerequisite: C E 123. Properties and dura-bility
of Portland cement concrete. Proper-ties
and testing of aggregates for asphalts
concrete. Asphalt cements and asphalt con-crete
performance. Traditional and
SUPERPAVE mix design and specification
of asphalt concrete. (2 lecture, 3 lab hours)
153. Traffic Operations
and Control (3)
Prerequisite: C E 150. Transportation stud-ies.
Highway traffic characteristics. High-way
system traffic analysis. Highway sys-tem
capacity design. Traffic regulations
and control.
161. Construction Engineering I (3)
Prerequisite: C E 123. Basics of civil engi-neering
contracting, organization of con-struction
firms, legal structures, project
funding, cash flow, equipment costs, labor
relations, and safety.
170. Pollution and Society (3)
Prerequisite: PL SI 2 or 101. Not open to
civil engineering majors. Descriptive analy-sis
of natural and human environments.
Effects of pollution and related human
activities. Pollution control strategies and
technology. Rational environmental deci-sion-
making. (Field trips required)
180A. Project Design (1)
Prerequisites: senior standing in civil engi-neering;
permission of instructor; C E 185
(may be taken concurrently). Student teams
complete and orally defend proposal for a
design project that includes several civil
engineering specialties. Information gath-ering,
time/resource management, and com-munication
skills. (Formerly C E 191T)
Object Description
| Title | 2001-02 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2001-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 284 |
| Full Text Search | Civil and Geomatics Engineering and Construction 284 2001-2002 California State University, Fresno General Catalog 128. Civil Engineering Hydraulics (3) Prerequisite: C E 85 or concurrently and M E 112 or concurrently. Fundamentals of civil engineering hydraulics with applica-tion to hydraulic structures. 129. Engineering Hydraulics Lab (1) Prerequisite: C E 128 or concurrently. Experiments and demonstrations in fluid properties, flow management, pipe flow, open channel flow, pumps, and hydraulic scour. (3 lab hours) 130. Theory of Structures (3) Prerequisite: C E 121. Trusses and frames analyzed by algebraic and graphic proce-dures; influence lines and live loading analy-sis; rigid frames analyzed by slope deflec-tion and moment distribution. Introduc-tion to matrix methods. 131. Intermediate Theory of Structures (3) Prerequisite: C E 130. Analysis of statically indeterminate beams, trusses, and frames; advanced topics in slope deflection and moment distribution; matrix methods. 132. Reinforced Concrete Design (3) Prerequisite: C E 130. Design of rein-forced concrete structural elements using the Ultimate Strength Design Method. Introduction to the Alternate Method. In-troduction to prestressed concrete. (2 lec-ture, 3 lab hours; field trips required) 133. Design of Steel Structures (3) Prerequisite: C E 130. Design of steel members and systems for buildings. De-sign areas include: tension members, com-pression members, beams, beam-columns, connections and plate girders. (2 lecture, 3 lab hours) 134. Foundation Design (3) Prerequisites: ECE 70, C E 123, 132 or concurrently. Design and theory of spread and continuous wall, rectangular, cantile-ver and trapezoidal footings; earth pres-sures and cantilever as well as gravity re-taining walls; pile foundations; pile driving; construction considerations; load tests; sub-surface investigations; case histories; and computer-aided design of foundations. (2 lecture, 3 lab hours) 135. Reinforced and Prestressed Concrete Design (3) Prerequisite: C E 132. Design of typical reinforced concrete and prestressed con-crete structures. (2 lecture, 3 lab hours; field trips required) 136. Design of Timber Structures (3) Prerequisite: C E 130. Design of timber members and systems for buildings. De-sign areas include: loads, properties of wood, tension members, beams, columns, beam-columns, connections, diaphragms, shear walls, and glued laminated arches. 137. Seismic Design of Building Structures (3) Prerequisites: C E 130, M E 112. Effects of earthquakes on structures. Introduction to structural dynamics. Response of struc-tures. Seismic provisions of building codes. Basic concepts in seismic-resistant design. Detailing for seismic-resistant construc-tion. Term project. (Field trips required) 138. Structural Mechanics (3) Prerequisite: C E 130. Energy theorems and applications. Analysis of arches, beams on elastic foundations, cable stayed struc-tures, and unsymmetrical bending of beams. Introduction to plastic theory of structures. 140. Hydrology (3) Prerequisites: ECE 70, C E 128 or concur-rently. The hydrologic cycle, atmospheric conditions, precipitation, infiltration, ground water, soil moisture, evaporation, runoff, streamflow, hydrographs, flood routing, hydrologic statistical analysis; ap-plications to water resources planning and management. (Field trips required) 141. Water Resources Engineering (3) Prerequisites: C E 128, 142 (or concur-rently), I E 160 (or concurrently), M E 26. Hydraulic design of water distribution, sewerage, and drainage systems. Computer-assisted pipe network analysis. Pump ap-plications. (2 lecture, 3 lab hours; field trips required) 142. Environmental Engineering (3) Prerequisites: CHEM 1A; C E 128 or concurrently. Introduction to the prin-ciples and practices of environmental qual-ity management, including water and air quality, waste management, and the envi-ronmental effects of engineered systems. 142L. Environmental Quality Laboratory (1) Prerequisite: C E 142 or concurrently. Study and analysis of physical, chemical, and biological characteristics of air, water, and solid wastes. (Field trips required) 143. Engineering Hydraulics (3) Prerequisite: C E 128. Design of pressure-conduit and open-channel flow systems with applications to hydraulic structures and control works, hydraulic power con-version, sediment transport, and channel stabilization. 144. Design of Water Quality Control Processes (3) Prerequisites: C E 142 or permission of instructor; I E 160 (or concurrently). Analy-sis and design of selected physical, chemi-cal, and biological facilities for water puri-fication and wastewater treatment. (2 lec-ture, 2 lab hours) (Field trips required) 150. Transportation Planning and Design (3) Prerequisite: G M E 15, upper-division standing. Geometric design of land trans-portation facilities, primarily road/street systems. Traffic theory and analysis, in-cluding statistical analysis of traffic param-eters. Freeway and intersection capacity. Simple transportation demand forecast. (2 lecture, 3 lab hours) 151. Pavement Design (3) Prerequisite: C E 123 or concurrently. Analysis of pavement structures. Factors affecting pavement performance. Struc-tural design of flexible and rigid highway and airfield pavements. Pavement rehabili-tation and repair. 152. Transportation Engineering Materials (3) Prerequisite: C E 123. Properties and dura-bility of Portland cement concrete. Proper-ties and testing of aggregates for asphalts concrete. Asphalt cements and asphalt con-crete performance. Traditional and SUPERPAVE mix design and specification of asphalt concrete. (2 lecture, 3 lab hours) 153. Traffic Operations and Control (3) Prerequisite: C E 150. Transportation stud-ies. Highway traffic characteristics. High-way system traffic analysis. Highway sys-tem capacity design. Traffic regulations and control. 161. Construction Engineering I (3) Prerequisite: C E 123. Basics of civil engi-neering contracting, organization of con-struction firms, legal structures, project funding, cash flow, equipment costs, labor relations, and safety. 170. Pollution and Society (3) Prerequisite: PL SI 2 or 101. Not open to civil engineering majors. Descriptive analy-sis of natural and human environments. Effects of pollution and related human activities. Pollution control strategies and technology. Rational environmental deci-sion- making. (Field trips required) 180A. Project Design (1) Prerequisites: senior standing in civil engi-neering; permission of instructor; C E 185 (may be taken concurrently). Student teams complete and orally defend proposal for a design project that includes several civil engineering specialties. Information gath-ering, time/resource management, and com-munication skills. (Formerly C E 191T) |
