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220. Advanced Foundation Engineering (3). Prerequisite:
Graduate standing. Design of cantilevered and anchored sheetpile
walls; axial- and lateral-loaded pile groups; drilled piers; pile
driving stresses and wave equation analysis; beams on elastic
foundations; footings on expansive and non-uniform soils and on
rock; and case histories. (Former 291T section)
230. Advanced Theory of Structures (3). Prerequisite:
Graduate standing in engineering or permission of instructor.
Analysis of indeterminate structures by force (flexibility) methods
and by displacement (stiffness) methods; Matrix methods
suitable for digital computer solutions. Virtual work, real and
complementary energy. Classicai structural theorems. Introduction
to the finite element method.
232. Prestressed Concrete (3). Prerequisite: Graduate
standing in engineering or permission of instructor. Properties of
hardened concrete. Failure mechanisms, influence of ioad and
environment history. Structural behavior and design of prestressed
concrete elements and systems: Continuous beams,
frames, slabs. Partial prestress. (Field trips required)
233. Advanced Steel and Timber Design (3). Prerequisite:
graduate standing. Material behavior and design of basic structural
units. Topics in steel: inelastic buckling, lateral-torsion
buckling, plate girders, composite design, plastic design. Topics
in wood: glulam structural units, pole-type structures, structural
diaphragms.
234. Theory of Plates and Shells (3). Prerequisite: Graduate
standing in engineering or permission of instructor. Methods of
calculating stresses and deformations in plates and shells used
in engineering structures, Bending of circular and rectangular
plates under various conditions. Membrane and flexural analysis
of shells of revolution.
235. Finite Element Analysis (3). Prerequisite: Graduate
standing in engineering or permission of instructor. Theoretical
and conceptual bases for formulation of finite element representations
in solid mechanics. Development of element stiffness
matrices for plane stress and plane strain problems, bending of
plates and deformation of shells.
240. Engineering Hydrology (3). Prerequisite: M E 116.
Analysis of the physical and stochastic processes governing the
occurrence and movement of water in its natural environment.
Applications to hydraulic engineering practice.
242. Water Resources Planning and Management (3).
Prerequisite: Graduate standing in engineering or permission of
instructor. A study of the interrelations of engineering, economic,
legal, political, administrative, ecological and social factors
involved in the planning and management of water resources.
245. Industrial and Hazardous Waste Treatment (3). Prerequisite:
Graduate standing in engineering or permission of
instructor. The application of engineering process to treatment
and disposal of liquid Industrial and hazardous wastes. Evaluation
of treatment and disposal alternatives with emphasis on
recovery processes.
246. Advanced Water Quality (3). Prerequisite: Graduate
standing. An in-depth study of physical separations, adsorption
systems, exchange systems, membrane processes and biological
processes. Chemical equilibria, reaction kinetics and mass
transfer mechanisms are presented.
247. Solid Wastes Engineering (3). Planning and design of
waste collection and disposal systems. Waste segregation and
energy impact related to recovery and recycling practices.
Environmental impact and institutional issues related to solid
waste systems.
Engineering - Civil and Surveying Engineering
275. Satellite Surveying (3). Prerequisite: Graduate standing.
Discussion of GPS orbital theory, data collection and
processing algorithms, network adjustments, project design and
optimization techniques. Review of current research trends and
applications. (Field trips reqUired)
280. Surveying Engineering Seminar (1; max total 3). PrereqUisite:
Graduate standing. Current CSUF surveying engineering
research presented and discussed by faculty and graduate
students. Oral presentation and written report documenting
ongoing research activities required.
281. Civil Engineering Seminar (1; max total 3) Prerequisite:
Graduate standing. Current CSUF civil engineering research
presented and discussed by faculty and graduate students. Oral
presentation and written report documenting ongoing research
activities required,
290. Independent Study (1-3; max total 3). Prerequisite:
Graduate status in engineering. See Independent Study.
291T. Topics in Engineering (1-3; max total 6). Prerequisite:
Permission of instructor. Investigation of selected engineering
topics.
298. Project (3; max total 3). Prerequisite: Graduate status in
engineering. See Criteria For Thesis and Project. Independent
investigation of advanced character such as analysis and/or
design of special engineering systems or projects; critical review
of state of art of special topics, as the culminating requirement
for the master's degree. Abstract required.
299. Thesis (6; max total 6). Prerequisite: See Criteria For
Thesis and Project. Preparation, completion, and submission of
an acceptable thesis for master's degree.
IN-SERVICE COURSES
(See Course Numbering System)
311. Professional Examination Review (2; may be repeated
In different fields).
321. Professional Engineering Seminar (1-3; may be repeated
In different fields).
301
Object Description
| Title | 1989-90 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 1989-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 301 |
| Full Text Search | 220. Advanced Foundation Engineering (3). Prerequisite: Graduate standing. Design of cantilevered and anchored sheetpile walls; axial- and lateral-loaded pile groups; drilled piers; pile driving stresses and wave equation analysis; beams on elastic foundations; footings on expansive and non-uniform soils and on rock; and case histories. (Former 291T section) 230. Advanced Theory of Structures (3). Prerequisite: Graduate standing in engineering or permission of instructor. Analysis of indeterminate structures by force (flexibility) methods and by displacement (stiffness) methods; Matrix methods suitable for digital computer solutions. Virtual work, real and complementary energy. Classicai structural theorems. Introduction to the finite element method. 232. Prestressed Concrete (3). Prerequisite: Graduate standing in engineering or permission of instructor. Properties of hardened concrete. Failure mechanisms, influence of ioad and environment history. Structural behavior and design of prestressed concrete elements and systems: Continuous beams, frames, slabs. Partial prestress. (Field trips required) 233. Advanced Steel and Timber Design (3). Prerequisite: graduate standing. Material behavior and design of basic structural units. Topics in steel: inelastic buckling, lateral-torsion buckling, plate girders, composite design, plastic design. Topics in wood: glulam structural units, pole-type structures, structural diaphragms. 234. Theory of Plates and Shells (3). Prerequisite: Graduate standing in engineering or permission of instructor. Methods of calculating stresses and deformations in plates and shells used in engineering structures, Bending of circular and rectangular plates under various conditions. Membrane and flexural analysis of shells of revolution. 235. Finite Element Analysis (3). Prerequisite: Graduate standing in engineering or permission of instructor. Theoretical and conceptual bases for formulation of finite element representations in solid mechanics. Development of element stiffness matrices for plane stress and plane strain problems, bending of plates and deformation of shells. 240. Engineering Hydrology (3). Prerequisite: M E 116. Analysis of the physical and stochastic processes governing the occurrence and movement of water in its natural environment. Applications to hydraulic engineering practice. 242. Water Resources Planning and Management (3). Prerequisite: Graduate standing in engineering or permission of instructor. A study of the interrelations of engineering, economic, legal, political, administrative, ecological and social factors involved in the planning and management of water resources. 245. Industrial and Hazardous Waste Treatment (3). Prerequisite: Graduate standing in engineering or permission of instructor. The application of engineering process to treatment and disposal of liquid Industrial and hazardous wastes. Evaluation of treatment and disposal alternatives with emphasis on recovery processes. 246. Advanced Water Quality (3). Prerequisite: Graduate standing. An in-depth study of physical separations, adsorption systems, exchange systems, membrane processes and biological processes. Chemical equilibria, reaction kinetics and mass transfer mechanisms are presented. 247. Solid Wastes Engineering (3). Planning and design of waste collection and disposal systems. Waste segregation and energy impact related to recovery and recycling practices. Environmental impact and institutional issues related to solid waste systems. Engineering - Civil and Surveying Engineering 275. Satellite Surveying (3). Prerequisite: Graduate standing. Discussion of GPS orbital theory, data collection and processing algorithms, network adjustments, project design and optimization techniques. Review of current research trends and applications. (Field trips reqUired) 280. Surveying Engineering Seminar (1; max total 3). PrereqUisite: Graduate standing. Current CSUF surveying engineering research presented and discussed by faculty and graduate students. Oral presentation and written report documenting ongoing research activities required. 281. Civil Engineering Seminar (1; max total 3) Prerequisite: Graduate standing. Current CSUF civil engineering research presented and discussed by faculty and graduate students. Oral presentation and written report documenting ongoing research activities required, 290. Independent Study (1-3; max total 3). Prerequisite: Graduate status in engineering. See Independent Study. 291T. Topics in Engineering (1-3; max total 6). Prerequisite: Permission of instructor. Investigation of selected engineering topics. 298. Project (3; max total 3). Prerequisite: Graduate status in engineering. See Criteria For Thesis and Project. Independent investigation of advanced character such as analysis and/or design of special engineering systems or projects; critical review of state of art of special topics, as the culminating requirement for the master's degree. Abstract required. 299. Thesis (6; max total 6). Prerequisite: See Criteria For Thesis and Project. Preparation, completion, and submission of an acceptable thesis for master's degree. IN-SERVICE COURSES (See Course Numbering System) 311. Professional Examination Review (2; may be repeated In different fields). 321. Professional Engineering Seminar (1-3; may be repeated In different fields). 301 |
