Active Course List

Concept of hydraulics such as pipe flow and open channel flow. Hydrologic principles such as weather patterns; precipitation measurement and distribution, abstractions, and runoff; storm hydrograph and peak flow analysis. Design includes flood design, reservoir and channel routing. Includes significant design component.

Prerequisites:

CIVE 321 or ME 321, ME 291

Areas of Interest:

Science, Technology, Engineering, Mathematics

Study of soil behaviors and their classifications; index properties. Applications of mechanics principles to soils as an engineering material, consolidation theory, compaction theory, effective stresses, shear strength; earth pressure and slope stability. Elements of foundation designs. Includes significant design component.

Prerequisites:

CIVE 223 or ME 223

Areas of Interest:

Science, Technology, Engineering, Mathematics

Introduction to Transportation systems; land use and transportation interaction, planning, and traffic operations; transportation decision making using economic analysis. Introduction to design, construction, maintenance, and operation of various transportation modes. Includes significant design component.

Prerequisites:

CIVE 145, ME 291

Graduation Requirements:

Writing Intensive

Areas of Interest:

Science, Technology, Engineering, Mathematics

Introduction of the fundamental chemical, biological and physical principles of environmental engineering for water and wastewater treatment and distribution systems, solid waste management, air pollution control, and the analysis of air quality, surface water, and ground water. Includes significant design component.

Prerequisites:

Select one: CHEM 201 or GEOL 291

Areas of Interest:

Science, Technology, Engineering, Mathematics

Curricular Practical Training: Co-Operative Experience is a zero-credit full-time practical training experience for one summer and an adjacent fall or spring term. Special rules apply to preserve full-time student status. Please contact an advisor in your program for complete information.

Prerequisites:

CIVE 201. At least 60 credits earned; in good standing; instructor permission; co-op contract; other prerequisites may also apply.

Areas of Interest:

Science, Technology, Engineering, Mathematics

Practical civil engineering design project with real world constraints. This course focuses on the planning and formulation of a project, and the presentation of preliminary findings to the public. Includes significant design component.

Prerequisites:

ENG 271W, CIVE 340, CIVE 350, CIVE 360, CIVE 370W

Graduation Requirements:

Writing Intensive

Areas of Interest:

Science, Technology, Engineering, Mathematics

Practical civil engineering design project with real world constraints. Focuses on the engineering analysis, design, and economic analysis of the project. Includes significant design component. Students will prepare for and complete the Fundamentals of Engineering exam.

Prerequisites:

CIVE 401W

Graduation Requirements:

Writing Intensive

Areas of Interest:

Science, Technology, Engineering, Mathematics

Advanced surveying techniques related to control surveys, coordinate systems, error identification, adjustment computation, ethics and client relations, and techniques specific to a range of applications including: land development, highway layout, mining, hydrography and riparian boundaries.

Areas of Interest:

Science, Technology, Engineering, Mathematics

History and concept of boundaries; boundary location procedures; property ownership and conveyance; metes and bounds; legal research regarding boundaries; rules of boundary evidence including classification and evaluation; land description composition; easements.

Areas of Interest:

Science, Technology, Engineering, Mathematics

A practical surveying project with real world constraints. Focuses on residential or commercial land development incorporating: subdivision and land development regulatory processes, zoning issues, elements of civil infrastructure design, boundary description and location, grading and earthwork, utility design and layout, and storm water management. Supports preparation for the Fundamentals of Surveying licensure examination.

Areas of Interest:

Science, Technology, Engineering, Mathematics

Selected studies in the properties and design of concrete mixtures, cement chemistry, concrete durability, specialty concrete, construction, admixtures, and quality control. Includes laboratory and significant design components.

Prerequisites:

ME 223

Areas of Interest:

Science, Technology, Engineering, Mathematics

Provides students with hands-on experience in the testing of civil engineering materials including concrete, metals and structural systems. Includes laboratory component.

Prerequisites:

CIVE 235, CIVE 340

Areas of Interest:

Science, Technology, Engineering, Mathematics

Provides students with hands-on experience in the testing of civil engineering materials including soil and asphalt, fluid mechanics, hydraulics, and hydrology. Includes laboratory component.

Prerequisites:

CIVE 350, CIVE 360, CIVE 380

Areas of Interest:

Science, Technology, Engineering, Mathematics

Design of reinforced concrete beams, columns, slabs, and structural foundations according to ACI 318 Building Code requirements. Includes significant design component.

Prerequisites:

CIVE 340

Areas of Interest:

Science, Technology, Engineering, Mathematics

Programs:

Civil Engineering (BSCE)

Design of prestressed concrete structures. Basic materials and prestress loss mechanisms. Flexure, shear, and deflections of prestressed concrete beams. Load-moment interaction curves for columns. Prestressed concrete bridge girders. The use of software is expected. Includes significant design component.

Prerequisites:

CIVE 340

Areas of Interest:

Science, Technology, Engineering, Mathematics

Behavior and properties of structural steel. Design of tension members, compression members, beams, and connections using the LRFD method. Use of the AISC Steel Construction Manual is required. Includes significant design component.

Prerequisites:

CIVE 340

Areas of Interest:

Science, Technology, Engineering, Mathematics

Programs:

Civil Engineering (BSCE)

Analysis of open channel flow systems. Includes natural channels, designed channels, flow transitions, steady flow, unsteady flow, uniform flow, and non-uniform flow. Includes significant design component.

Prerequisites:

CIVE 350

Areas of Interest:

Science, Technology, Engineering, Mathematics

Analysis and design of water regulating structures. Includes dams, spillways, gates, dikes, levees, stilling basins, water distribution systems, and various simpler structures. Environmental impacts of hydraulic structures are discussed throughout the course. Includes significant design component.

Prerequisites:

CIVE 350

Areas of Interest:

Science, Technology, Engineering, Mathematics

Application of hydraulics, hydrology, soil and crop properties to the design of agricultural drainage systems. Environmental impacts of traditional drainage systems, current best management practices to decrease these impacts and emerging trends will be discussed throughout the course. Includes significant design component.

Prerequisites:

CIVE 350

Areas of Interest:

Science, Technology, Engineering, Mathematics

Application of fluid mechanics and hydrology to the design of stormwater management facilities. Environmental impacts of stormwater management are discussed throughout the course. Includes significant design component.

Prerequisites:

CIVE 350

Areas of Interest:

Science, Technology, Engineering, Mathematics

Performance and design of rigid, flexible, and composite pavement structures with emphasis on modern pavement design procedures. Principles of pavement maintenance, rehabilitation, and pavement management systems. Materials characterization, tests, quality control, and life cycle cost analysis. Includes significant design component.

Prerequisites:

ME 223, CIVE 235

Areas of Interest:

Science, Technology, Engineering, Mathematics

Classification of foundations; applications of fundamental soil mechanics to design and analysis of soil-structure systems; design and computer application of shallow and deep foundations, piles and caissons, retaining structures. Introduction to rock mechanics. Includes significant design component.

Prerequisites:

CIVE 360

Areas of Interest:

Science, Technology, Engineering, Mathematics

Design and construction of traditional embankments, including slope stability analysis; earth and rockfill dams, introduction to seepage analysis; excavations, earth retaining structures, and other geotechnical structures. Geotechnical software application in analysis and design. Includes significant design component.

Prerequisites:

CIVE 360

Areas of Interest:

Science, Technology, Engineering, Mathematics

Elements of traffic engineering including road use, vehicle and roadway systems; traffic flow theory; traffic studies and data collections; traffic control devices; principles of intersecting signalization; capacity and level of service; analysis of freeways, rural highways and intersections using computer software for traffic operations and management. Includes significant design component.

Prerequisites:

CIVE 370W

Areas of Interest:

Science, Technology, Engineering, Mathematics

Classification and design process of highways; development and use of design controls; criteria, and highway design elements; design of vertical and horizontal alignment, and establishment of sight distances; design of cross sections, intersections, and interchanges. Extensive use of CAD software. Includes significant design component.

Prerequisites:

CIVE 370W

Areas of Interest:

Science, Technology, Engineering, Mathematics