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Please see the section on Course Description Symbols and Terms in the University Catalog for an explanation of course description terminology and symbols, the course numbering system, and course credit units. All courses are lecture and discussion and employ letter grading unless otherwise stated. Some prerequisites may be waived with faculty permission. Many syllabi are available on the Chico Web.

Displaying 1 - 67 out of 67 results.

SUBJ NUM Title Sustainable Units Semester Offered Course Flags
Prerequisites: High school trigonometry and algebra.
This course introduces the fundamentals of creating and reading civil engineering drawings by referencing architectural plans, subdivision maps and site plans, in addition to utilizing computer-aided drafting software to produce basic plans. Applications of the computer software include drawing accuracy, layer managing standards, dimensioning standards, sheet layouts, data extraction and drawing management. Topics are reinforced by a drawing project that requires sketching and measuring of existing features to create a set of as-built drawings. Additional course topics related to descriptive geometry include orthographic projections, auxiliary views, perspective drawings, and graphical solutions to vector analysis. 4 hours activity. (020120)
Prerequisites: MATH 120 (may be taken concurrently).
Theory and practice in measurement and computation of distances, angles, and areas on the earth's surface. Error of combined measurements analysis. Use of scientific calculator required. 2 hours discussion, 3 hours laboratory. (001484)
Corequisites: CIVL 130.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 130. 3 hours independent study. Credit/no credit grading. (020155)
Prerequisites: CIVL 130.
Provides an introduction to civil engineering facilities and systems (environmental, structural, transportation and water resources), environmental impacts of those systems, historical development of design, introduction to design concepts and procedures, examples of the design of civil engineering systems, creativity in design, and applications in civil engineering design-horizontal curves, vertical curves, earthwork, state plane coordinates, geographic information systems and global positioning systems. 2 hours discussion, 3 hours laboratory. (001485)
Prerequisite: CIVL 131.
Design of roadway alignments, to include horizontal curves, vertical curves, and earthwork using Civil 3D modeling software. A final set of plans and specifications is required. 2 hours activity. Credit/no credit grading. (020693)
Corequisites: CIVL 131.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 131. 2 hours activity. Credit/no credit grading. (020156)
Prerequisites: High school biology and chemistry.
Introduction to biological processes used in environmental engineering analysis and design with emphasis on sustainability. Ecosystem structure and function, population dynamics, biochemical reactions, photosynthesis, microbial ecology, growth and kinetics. Engineering applications in control of communicable disease, aerobic and anaerobic degradation of organic waste, water quality management, drinking water treatment, wastewater and solid waste treatment, biomass energy, phytotechnology, and bioremediation. 2 hours lecture, 2 hours activity. (021145)
This course is for special topics offered for 1.0-3.0 units. Typically the topic is offered on a one-time-only basis and may vary from term to term and be different for different sections. 3 hours lecture. (001490)
Prerequisites: Faculty permission.
This course is an independent study of special problems offered for 1.0-3.0 units. You must register directly with a supervising faculty member. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading. (020902)
Prerequisites: PHYS 204A (may be taken concurrently).
Use of the computer in a variety of applications from the fields of engineering. Topics include computer hardware, operating systems, the Internet, technical word processing, electronic spreadsheets, computer charting and drawing, computer programming, and ethics. 4 hours activity. (001488)
Prerequisites: MATH 121 and PHYS 204A. CIVL 110 (may be taken concurrently) or MECH 100 and MECH 100L (may be taken concurrently).
Force systems, moments, equilibrium, centroids, and moments of inertia. 2 hours discussion, 2 hours activity. (001489)
Corequisites: CIVL 211.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 211. 3 hours independent study. Credit/no credit grading. (020157)
Prerequisites: MATH 121, junior standing.
Analysis of alternatives by basic engineering economic methods and applications of statistics including probability, sampling theory and data analysis, and tests of hypotheses. 3 hours discussion. (001495)
Corequisites: CIVL 302.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 302. 3 hours independent study. Credit/no credit grading. (020340)
Prerequisites: CIVL 211 with a grade of C- or higher; CIVL 110 or MECH 100 and MECH 100L; MATH 260 and MECH 210 (may be taken concurrently).
Strength and elastic properties of materials of construction; tension, compression, shear, and torsion stresses; deflection and deformation; stress analysis of beams and columns. 4 hours discussion. (001491)
Corequisites: CIVL 311.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 311. 3 hours independent study. Credit/no credit grading. (020158)
Prerequisites: CIVL 205; CIVL 311 with a grade of C- or higher.
Methods and instruments used in the determination of the strength and elastic properties of materials of engineering. Experiments verifying the theoretical principles of CIVL 311. 3 hours laboratory. (001492)
Prerequisites: CIVL 205 (may be taken concurrently); CIVL 311 with a grade of C- or higher.
Fundamentals of structural analysis for beams, trusses, and frames. Topics include loading (including seismic), influence lines, approximate analysis methods, deflection analysis, and statically indeterminate structures. Methods applicable to computer analysis are introduced. 4 hours discussion. (001499)
Prerequisites: CIVL 211 with a grade of C- or higher. Recommended: MATH 260, MECH 320 (may be taken concurrently).
Hydrostatics, principles of continuity, work-energy and momentum, viscous effects, dimensional analysis and similitude, flow in closed conduits, drag on objects. 3 hours discussion, 3 hours laboratory. (001496)
Corequisites: CIVL 321.
Supplemental applications and explanations intended to facilitate student understanding of content from CIVL 321. 3 hours independent study. Credit/no credit grading. (020159)
Prerequisites: Approval of supervising faculty member prior to off-campus assignment.
This course is an internship offered for 1.0-3.0 units. You must register directly with a supervising faculty member. This program is designed for students who wish to gain practical work experience with participating civil engineering firms/organizations. 3 hours lecture. You may take this course more than once for a maximum of 15.0 units. Credit/no credit grading. (001504)
This course is for special topics offered for 1.0-3.0 units. Typically the topic is offered on a one-time-only basis and may vary from term to term and be different for different sections. See the Class Schedule for the specific topic being offered. (001505)
Prerequisites: Faculty permission.
This course is an independent study of special problems offered for 1.0-3.0 units. You must register directly with a supervising faculty member. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading. (001506)
Prerequisite: Membership in a civil engineering student professional organization.
Co-curricular activity associated with one or more student professional organizations. Examples include collegiate competitions, such as the concrete canoe and the steel bridge contests, and sevice projects. Substantial participation is required (approximately 30 hours minimum). 2 hours activity. Credit/no credit grading. (020694)
Prerequisites: ENGL 130 (or its equivalent) with a grade of C- or higher, junior standing.
Introduction to law as it relates to the practice of civil engineering. Operation of a successful civil engineering business. Writing various technical reports and specifications. 4 hours discussion. This is an approved Graduation Writing Assessment Requirement course; a grade of C- or higher certifies writing proficiency for majors. (001494)
Prerequisites: CIVL 312 and CIVL 321 (may be taken concurrently); ENGL 130 or equivalent.
Soil properties, tests, and classification. Analysis of soil stresses, consolidation, shear strength, lateral pressures, and ground water movement. Related design consideration involving spread footings, piles, retaining walls, and slopes. Use of programmable scientific calculator required. 3 hours discussion, 3 hours laboratory. (001511)
Prerequisites: CIVL 312, CIVL 313. Recommended: CIVL 411.
The analysis and design of reinforced concrete structures and elements by the strength design method. Laboratory includes experiments on concrete, concrete structural elements, and a design project. 3 hours discussion, 3 hours laboratory. (001514)
Prerequisites: BIOL 151 or NSCI 102; CHEM 107 or CHEM 111; MATH 109 or MATH 120; junior standing.
Introduction to water quality, water supply, distribution, and drinking water treatment; wastewater collection, treatment, and disposal. Disease transmission; water quality parameters; physical, chemical, and biological processes in the treatment of water, wastewater, and biosolids. 3 hours discussion, 3 hours laboratory. (001529)
Prerequisites: CIVL 131; CIVL 302 (may be taken concurrently).
Transportation systems and facility planning, design, construction, operations, and maintenance. Pavement design and traffic engineering fundamentals. Laboratory includes field studies, design exercises, and modeling/forecasting tasks. 3 hours discussion, 3 hours laboratory. (001520)
Prerequisites: ENGL 130 or equivalent; senior standing.
History of engineering, professional registration, codes of ethics, management issues, diversity, outsourcing, intellectual property, international development and technology transfer, sustainable design. A substantial written project with oral presentation is required. 2 hours discussion, 2 hours activity. (003716)
Prerequisites: To be established when courses are formulated.
This course is for special topics offered for 1.0-3.0 units. Typically the topic is offered on a one-time-only basis and may vary from term to term and be different for different sections. See The Class Schedule for the specific topic being offered. 3 hours lecture. (001537)
Prerequisites: Faculty permission.
This course is an independent study of special problems offered for 1.0-3.0 units. You must register directly with a supervising faculty member. 3 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading. (001539)
Prerequisites: Completion of 12 units of upper-division C E courses, faculty permission.
This course may be taken twice for a maximum of 6 units. Prerequisite to the second semester is a B or higher in the first semester. Open by invitation to C E majors who have a GPA among the top 5% of C E students based upon courses taken at CSU, Chico. This is an "Honors in the Major" course; a grade of B or higher in 6 units of 499H certifies the designation of "Honors in the Major" to be printed on the transcript and the diploma. Each 3-unit course will require both formal written and oral presentations. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. (001540)
Prerequisites: CIVL 411, CIVL 415 (may be taken concurrently.
The application of soil mechanics principles to the design of foundations for buildings and earth structures. Integration of structural design and soil response. 3 hours discussion. (001513)
Prerequisites: CIVL 313.
Advanced methods of structural analysis, including nonlinear static pushover methods and dynamic analysis. Element modeling based on fundamental stress-strain behavior and force-displacement behavior. Current codes and guidelines are utilized. Use of software for nonlinear structural analysis. 2 hours discussion, 2 hours activity. (001532)
Prerequisites: CIVL 313.
Theory, analysis, and design of steel structural elements and systems using the Load and Resistance Factor Design (LRFD) method. 3 hours discussion. (001500)
Prerequisites: CIVL 313.
Theory and design procedures for timber structures and their connections to resist gravity and lateral loads. Basic element design by the Allowable Stress Design (ASD) and/or Load and Resistance Factor Design (LRFD) methods are detailed. Also covered is design of floor and roof systems and shear walls. One or two 3-hour field trips required. 3 hours discussion. (001516)
Prerequisites: CIVL 313.
Theory and design procedures for timber structures and their connections to resist gravity and lateral loads. Basic element design by the Allowable Stress Design (ASD) and/or Load and Resistance Factor Design (LRFD) methods are detailed. Also covered is design of floor and roof systems and shear walls. One or two 3-hour field trips required. 3 hours discussion. (020404)
Prerequisites: CIVL 313, MATH 260. Recommended: Concurrent enrollment in or prior completion of CIVL 415, CIVL 554, CIVL 556.
Earthquake and wind hazard related to the structural design of buildings. Topics include engineering seismology, wind environment and climatology, structural dynamics, structural loading, and design methodologies. Use of computer software for the static and dynamic analysis of three-dimensional building systems. 2 hours discussion, 2 hours activity. (001518)
Prerequisites: CIVL 415, CIVL 554, or CIVL 556.
Corequisite: CIVL 595.
Earthquake and wind hazard related to the structural design of buildings. Topics include engineering seismology, wind environment and climatology, structural dynamics, structural loading, and design methodologies. Use of computer software for the static and dynamic analysis of three-dimensional building systems. 2 hours discussion, 2 hours activity. (021175)
Prerequisites: CIVL 313, MATH 260. Recommended: Concurrent enrollment in or prior completion of CIVL 415, CIVL 554, CIVL 556.
Earthquake and wind hazard related to the structural design of buildings. Topics include engineering seismology, wind environment and climatology, structural dynamics, structural loading, and design methodologies. Use of computer software for the static and dynamic analysis of three-dimensional building systems. 2 hours discussion, 2 hours activity. (020405)
Prerequisites: CIVL 205; CIVL 321 with a grade of C- or higher.
Principles and applications of steady, gradually varying, and unsteady open channel flows. The course uses both analytical and computational methods to analyze flows in open channels. 3 hours discussion. (001526)
Prerequisites: CIVL 461.
An introduction to modern hydrology emphasizing quantitative analysis of subsurface flow. Topics include contaminant transport. Use of modeling tools and techniques is emphasized. 2 hours discussion, 2 hours activity. This course requires the use of a laptop computer and appropriate software. (001498)
Prerequisite: CIVL 461.
Corequisite: CIVL 595.
An introduction to modern groundwater hydrology emphasizing quantitative analysis of subsurface flow. Topics include well hydraulics, stream/aquifer interactions, and contaminant transport. Use of modeling tools and techniques is emphasized. 2 hours discussion, 2 hours activity. (021177)
Prerequisites: CIVL 302; CIVL 321 with a grade of C- or higher; CIVL 411 (may be taken concurrently).
Quantitative analysis of pressurized pipelines, pipe networks, and well fields. The course includes analysis of transients in pipeline systems caused by valve movement, pump power failure, etc; design of transient control devices; analysis of well drawdowns and aquifer preformance tests. 3 hours discussion. (001528)
Prerequisites: CIVL 431 or faculty permission.
Natural systems for the treatment of wastewater; transmission of excreta-related infections; treatment systems for removal of pathogens; wastewater and biosolids reuse in agriculture and aquaculture. Special emphasis on the problems of developing countries. 3 hours discussion. (001533)
Prerequisites: CIVL 431 or faculty permission.
Water quality criteria and standards; engineering design; management and monitoring of water quality. 3 hours discussion. (001535)
Prerequisites: CIVL 431 or faculty permission.
An introduction to the handling and management of solid and hazardous wastes. Emphasis on state-of-the-art engineering techniques and contemporary management issues based on social, economic, and legal considerations; risk assessment; case studies. Special emphasis on problems of developing countries. 3 hours discussion. (001536)
Prerequisites: CIVL 441 or faculty permission.
Characteristics and manufacture of bituminous materials; engineering properties, design, and production of bituminous mixtures; analysis, design, and construction of flexible and rigid pavement cross-sections; stabilization of sub-grades; analysis of pavement distress; development and operation of pavement management systems; and application of computer software. 3 hours discussion. (001522)
Prerequisite: CIVL 441 or faculty permission.
Asphalt mix types and their use in flexible pavements. Properties of asphalt and aggregates that determine mix properties. Design of asphalt aggregate mix to meet the structural and environmental requirements. Construction of asphalt mixes, including equipment, procedures, influence on properties, constrains, specification, and quality control. Surface treatment of asphalt pavement. Recycling of previously used materials. Recent developments in asphalt mix technology. 3 hours lecture. (020712)
Prerequisites: CIVL 441 or faculty permission.
Introduction to systems approach, urban transportation technology, urban problems and transportation, forecasting methods, urban transportation models and calibration, traffic impact studies and USDOT planning requirements. 3 hours discussion. (001524)
Prerequisites: CIVL 441 or faculty permission.
Traffic engineering fundamentals, traffic control signs, markings, and signals. Intersection and highway capacity. Highway safety and accident investigations. Design of streets and parking facilities. Assessment of the environmental impact of traffic. 3 hours discussion. (001525)
Prerequisites: CIVL 205; CIVL 321 (may be taken concurrently). Recommended: CIVL 302.
Introduction to construction engineering and management. Cost estimation for contract construction and engineering, including labor, material, equipment, and overhead costs. Construction procedures, equipment and methods; efficient use of excavation and hauling equipment operations. Application of crew balance, process chart and operations research techniques to construction operations. Planning, scheduling, and progress contols of construction operations. One or two three-hour field trips may be required. 3 hours discussion. (001510)
Prerequisite: ENGL 130 (or equivalent) with a C- or higher; junior standing.
Corequisites: CIVL 558C, CIVL 561C, CIVL 562C, CIVL 571C, CIVL 575C, or CIVL 586C.
This course provides a broad-based capstone design experience in a coordinated semester long project. In support of the design project, emphasis is placed on fundamentals of technical writing, contracts, and specifications common to many fields of civil engineering. 3 hours discussion. (021174)
Prerequisites: To be established when courses are formulated.
This course is for special topics offered for 1.0-3.0 units. Typically the topic is offered on a one-time-only basis and may vary from term to term and be different for different sections. See The Class Schedule for the specific topic being offered. 3 hours lecture. (020084)
Prerequisites: Faculty permission.
This course is an independent study of special problems offered for 1.0-3.0 units. You must register directly with a supervising faculty member. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading. (020171)
Prerequisites: CIVL 556 or faculty permission.
Advanced timber design activities including design projects for lateral loads (seismic or wind) in horizontal diaphragms and shear walls, seismic connections, flexible diaphragm deflections, and development of computational aids for the design of timber systems. 2 hours activity. (001542)
Prerequisites: CIVL 558 or faculty permission.
Recommended: Completion of or concurrent enrollment in an advanced structural design course or equivalent. Investigations of current topics in earthquake and wind hazard related to the structural design of buildings. 2 hours activity. (001544)
Prerequisites: CIVL 561 or faculty permission.
Procedures for the design of open channels. Applications in steady, gradually-varying, and unsteady open channel hydraulics. 2 hours activity. (001549)
Prerequisites: Bachelor's Degree or faculty permission.
An overview of terms related to pavement management systems and their use in identifying both functional and structural distresses in flexible and rigid pavement and their role in pavement preservation strategies. 3 hours lecture. (020773)
Prerequisites: CIVL 682 or faculty permission.
Flexible pavement distress causes and measurements; project selection for preservation methods; construction best practices for preservation, maintenance, and rehabilitation processes. 3 hours lecture. (020774)
Prerequisites: CIVL 682 or faculty permission.
Rigid pavement distress causes and measurements; project selection for preservation methods; construction best practices for preservation, maintenance, and rehabilitation processes. 3 hours lecture. (020775)
Prerequisites: CIVL 683 or CIVL 684 or faculty permission.
Development of pavement management databases; construction of performance models; forecasting of pavement performance; life cycle cost analyses for highway construction. 3 hours lecture. (020776)
Prerequisites: Faculty permission.
This course is a graduate-level independent study offered for 1.0-3.0 units. You must register directly with a supervising faculty member. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. (001551)
Prerequisites: Department permission.
This course is for special topics offered for 1.0-3.0 units. Typically the topic is offered on a one-time-only basis and may vary from term to term and be different for different sections. See the Class Schedule for the specific topic being offered. 3 hours lecture. You may take this course more than once for a maximum of 3.0 units. (001550)
Prerequisites: See the department secretary.
This course is offered for 1.0-6.0. You must register directly with a supervising faculty member. 3 hours supervision. Credit/no credit grading. (001558)
Prerequisites: Faculty permission.
This course is a master's study offered as either a Master's Thesis or as a Master's Project for 1.0-6.0 units. You must register directly with a supervising faculty member. 3 hours supervision. Credit/no credit grading. (001555)
Catalog Cycle:11