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Civil Engineering
Engineering & Computer Science
2005-2006 California State University, Fresno General Catalog 297
cal thinking as integral parts of the engi-neering
decision process; engineering meth-ods
of analysis; problem solving; computer
drafting; career opportunities. (Field trips
required)
CE 110. Computer Applications
in Civil Engineering (3)
Prerequisites: CE 85. Use and modification
of existing programs. Creation of new pro-grams.
Use of structured language, spread-sheets,
and numerical solutions CAD. Term
projects.
CE 121. Mechanics of Materials (3)
Prerequisite: CE 20; CE 85 or concur-rently.
Applications of principles of me-chanics
to find stresses and deformations in
machine and structural members.
CE 121L. Mechanics of
Materials Laboratory (1)
Prerequisite: CE 121 or concurrently. Ap-plication
of principles and methods of test-ing
to verify theory and determine limita-tions
of principles of mechanics of materials.
(3 lab hours)
CE 123. Soil Engineering (3)
Prerequisites: CE 121. Physical and me-chanical
properties of soil as an engineering
material; studies and design applications in
permeability, one and two dimensional
flows, seepage through earth dams and
coffer dams, porewater pressure and excess
porewater pressure; compressibility, stress-strain
relationships and strength character-istics;
computer-aided analysis case histo-ries.
CE 123L. Soil Engineering
Laboratory (1)
Prerequisite: CE 121L, 123 or concur-rently.
Experiments to illustrate and am-plify
the principles of soil mechanics. (3 lab
hours; field trips required)
CE 124. Concrete Laboratory (1)
Prerequisite: CE 121L. Proportioning of
concrete mixes; admixtures; workability
tests; compressive, flexural, and tensile
strength tests; reinforced concrete. (3 lab
hours; field trips required)
CE 125. Geotechnical Engineering
Design (3)
Prerequisites: CE 123. Design and theory
of embankment and cut slopes, surcharg-ing
and sand drains, dewatering systems
and ground control, excavation and sup-port
systems, field compaction and grout-ing
systems; construction considerations,
computer-aided design, and case histories.
(2 lecture, 3 lab hours)
CE 127. Construction Soils
and Foundation (3)
Not open to civil engineering majors. Pre-requisite:
upper-level standing. Physical and
mechanical properties of soil, construction
applications of soils engineering design, field
control during construction, field problems
and remedial measures, and case histories.
CE 127L. Construction Soil Lab (1)
Not open to civil engineering majors.
Corequisite: CE 127. Laboratory experi-ments
and sessions to reinforce principles
of soil mechanics as well as foundation
design and illustrate the use of soil as a
construction material. (3 lab hours and
field trips required)
CE 128. Civil Engineering
Hydraulics (3)
Prerequisite: CE 20 or concurrently and
CE 85 or concurrently. Fundamentals of
civil engineering hydraulics with applica-tion
to hydraulic structures.
CE 129. Engineering
Hydraulics Lab (1)
Prerequisite: CE 128 or concurrently. Ex-periments
and demonstrations in fluid prop-erties,
flow management, pipe flow, open
channel flow, pumps, and hydraulic scour.
(3 lab hours)
CE 130. Theory of Structures (3)
Prerequisite: CE 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.
CE 131. Intermediate
Theory of Structures (3)
Prerequisite: CE 130. Analysis of statically
indeterminate beams, trusses, and frames;
advanced topics in slope deflection and
moment distribution; matrix methods.
CE 132. Reinforced
Concrete Design (3)
Prerequisite: CE 130. Design of reinforced
concrete structural elements using the Ul-timate
Strength Design Method. Intro-duction
to the Alternate Method. Intro-duction
to prestressed concrete. (2 lecture,
3 lab hours; field trips required)
CE 133. Design of Steel Structures (3)
Prerequisite: CE 130. Design of steel mem-bers
and systems for buildings. Design ar-eas
include: tension members, compres-sion
members, beams, beam-columns,
connections and plate girders. (2 lecture, 3
lab hours)
CE 134. Foundation Design (3)
Prerequisites: CE 123, 132 or concurrently.
Design and theory of spread and continu-ous
wall, rectangular, cantilever and trap-ezoidal
footings; earth pressures and canti-lever
as well as gravity retaining walls; pile
foundations; pile driving; construction con-siderations;
load tests; subsurface investi-gations;
case histories; and computer-aided
design of foundations. (2 lecture, 3 lab
hours)
CE 135. Reinforced and Prestressed
Concrete Design (3)
Prerequisite: CE 132. Design of typical
reinforced concrete and prestressed con-crete
structures. (2 lecture, 3 lab hours;
field trips required)
CE 136. Design of
Timber Structures (3)
Prerequisite: CE 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.
CE 137. Seismic Analysis of Building
Structures (3)
Prerequisites: CE 130, ME 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 construction.
Term project. (Field trips required)
CE 138. Structural Mechanics (3)
Prerequisite: CE 130. Energy theorems and
applications. Analysis of arches, beams on
elastic foundations, cable stayed structures,
and unsymmetrical bending of beams. In-troduction
to plastic theory of structures.
CE 140. Hydrology (3)
Prerequisites: CE 128 or concurrently. The
hydrologic cycle, atmospheric conditions,
precipitation, infiltration, ground water,
soil moisture, evaporation, runoff,
streamflow, hydrographs, flood routing,
hydrologic statistical analysis; applications
to water resources planning and manage-ment.
(Field trips required)
CE 141. Water Resources Engineering (3)
Prerequisites: CE 128, 142 (or concur-rently).
Hydraulic design of water distribu-tion,
sewerage, and drainage systems. Com-puter-
assisted pipe network analysis. Pump
applications. (2 lecture, 3 lab hours; field
trips required)
CE 142. Environmental Engineering (3)
Prerequisites: CHEM 1A or 3A concur-rently;
CE 128 or concurrently. Introduc-
Object Description
| Title | 2005-06 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2005-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 297 |
| Full Text Search | Civil Engineering Engineering & Computer Science 2005-2006 California State University, Fresno General Catalog 297 cal thinking as integral parts of the engi-neering decision process; engineering meth-ods of analysis; problem solving; computer drafting; career opportunities. (Field trips required) CE 110. Computer Applications in Civil Engineering (3) Prerequisites: CE 85. Use and modification of existing programs. Creation of new pro-grams. Use of structured language, spread-sheets, and numerical solutions CAD. Term projects. CE 121. Mechanics of Materials (3) Prerequisite: CE 20; CE 85 or concur-rently. Applications of principles of me-chanics to find stresses and deformations in machine and structural members. CE 121L. Mechanics of Materials Laboratory (1) Prerequisite: CE 121 or concurrently. Ap-plication of principles and methods of test-ing to verify theory and determine limita-tions of principles of mechanics of materials. (3 lab hours) CE 123. Soil Engineering (3) Prerequisites: CE 121. Physical and me-chanical properties of soil as an engineering material; studies and design applications in permeability, one and two dimensional flows, seepage through earth dams and coffer dams, porewater pressure and excess porewater pressure; compressibility, stress-strain relationships and strength character-istics; computer-aided analysis case histo-ries. CE 123L. Soil Engineering Laboratory (1) Prerequisite: CE 121L, 123 or concur-rently. Experiments to illustrate and am-plify the principles of soil mechanics. (3 lab hours; field trips required) CE 124. Concrete Laboratory (1) Prerequisite: CE 121L. Proportioning of concrete mixes; admixtures; workability tests; compressive, flexural, and tensile strength tests; reinforced concrete. (3 lab hours; field trips required) CE 125. Geotechnical Engineering Design (3) Prerequisites: CE 123. Design and theory of embankment and cut slopes, surcharg-ing and sand drains, dewatering systems and ground control, excavation and sup-port systems, field compaction and grout-ing systems; construction considerations, computer-aided design, and case histories. (2 lecture, 3 lab hours) CE 127. Construction Soils and Foundation (3) Not open to civil engineering majors. Pre-requisite: upper-level standing. Physical and mechanical properties of soil, construction applications of soils engineering design, field control during construction, field problems and remedial measures, and case histories. CE 127L. Construction Soil Lab (1) Not open to civil engineering majors. Corequisite: CE 127. Laboratory experi-ments and sessions to reinforce principles of soil mechanics as well as foundation design and illustrate the use of soil as a construction material. (3 lab hours and field trips required) CE 128. Civil Engineering Hydraulics (3) Prerequisite: CE 20 or concurrently and CE 85 or concurrently. Fundamentals of civil engineering hydraulics with applica-tion to hydraulic structures. CE 129. Engineering Hydraulics Lab (1) Prerequisite: CE 128 or concurrently. Ex-periments and demonstrations in fluid prop-erties, flow management, pipe flow, open channel flow, pumps, and hydraulic scour. (3 lab hours) CE 130. Theory of Structures (3) Prerequisite: CE 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. CE 131. Intermediate Theory of Structures (3) Prerequisite: CE 130. Analysis of statically indeterminate beams, trusses, and frames; advanced topics in slope deflection and moment distribution; matrix methods. CE 132. Reinforced Concrete Design (3) Prerequisite: CE 130. Design of reinforced concrete structural elements using the Ul-timate Strength Design Method. Intro-duction to the Alternate Method. Intro-duction to prestressed concrete. (2 lecture, 3 lab hours; field trips required) CE 133. Design of Steel Structures (3) Prerequisite: CE 130. Design of steel mem-bers and systems for buildings. Design ar-eas include: tension members, compres-sion members, beams, beam-columns, connections and plate girders. (2 lecture, 3 lab hours) CE 134. Foundation Design (3) Prerequisites: CE 123, 132 or concurrently. Design and theory of spread and continu-ous wall, rectangular, cantilever and trap-ezoidal footings; earth pressures and canti-lever as well as gravity retaining walls; pile foundations; pile driving; construction con-siderations; load tests; subsurface investi-gations; case histories; and computer-aided design of foundations. (2 lecture, 3 lab hours) CE 135. Reinforced and Prestressed Concrete Design (3) Prerequisite: CE 132. Design of typical reinforced concrete and prestressed con-crete structures. (2 lecture, 3 lab hours; field trips required) CE 136. Design of Timber Structures (3) Prerequisite: CE 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. CE 137. Seismic Analysis of Building Structures (3) Prerequisites: CE 130, ME 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 construction. Term project. (Field trips required) CE 138. Structural Mechanics (3) Prerequisite: CE 130. Energy theorems and applications. Analysis of arches, beams on elastic foundations, cable stayed structures, and unsymmetrical bending of beams. In-troduction to plastic theory of structures. CE 140. Hydrology (3) Prerequisites: CE 128 or concurrently. The hydrologic cycle, atmospheric conditions, precipitation, infiltration, ground water, soil moisture, evaporation, runoff, streamflow, hydrographs, flood routing, hydrologic statistical analysis; applications to water resources planning and manage-ment. (Field trips required) CE 141. Water Resources Engineering (3) Prerequisites: CE 128, 142 (or concur-rently). Hydraulic design of water distribu-tion, sewerage, and drainage systems. Com-puter- assisted pipe network analysis. Pump applications. (2 lecture, 3 lab hours; field trips required) CE 142. Environmental Engineering (3) Prerequisites: CHEM 1A or 3A concur-rently; CE 128 or concurrently. Introduc- |
