Introduction of concepts, approaches, procedures, and codes for the design of civil structural systems with emphasis on the characterization of structural loads, structural systems and system behavior on structural systems constructed of steel and reinforced concrete. Topics to include engineering properties of materials, design and behavior of compression members, flexural members, and tension members. Prerequisite: CE3300 or equivalent.

Team-based project course focusing on a design in a sub-discipline of civil and environmental engineering. Student participants will develop professional practice skills, such as project scoping, scheduling, cost-estimation, and appropriate technical communication, and visual representation of designs. Projects will continue in CE4992. Requisites: 4th-Year Standing in Civil Engineering

Detailed study of special topics in civil engineering. Master's-level graduate students. Prerequisites: to be listed for each section as needed

An introduction to ground-water hydrology and contaminant transport. Topics include Darcy's Law, fluid potential, hydraulic conductivity, the unsaturated zone, the 3-D equation of ground-water flow, well hydraulics and pump tests, including the principle of superposition, the advection-dispersion-reaction equation, pollutant fate and transport processes, and numerical simulation of ground-water. Prerequisites: CE 2210, CE 3200 or equivalent.

Introduces the legal requirements, framework, and principles of urban and statewide planning. Focuses on describing and applying the methodology of the forecasting system of the transportation planning process, including inventory, forecasts of population and economic activity, network analysis, and travel demand analysis.

The course emphasizes the formulation of environmental management issues as optimization problems. Simulation models will be presented and then combined with optimization algorithms. Environmental systems to be addressed may include stream quality, air quality, water supply, groundwater remediation, and reservoir operations. Optimization techniques presented include linear programming, dynamic programming, and genetic algorithms.

This course provides the essential aspects of the "Project lifecycle" process from the initial conception phase through the completion phase of a project. Specifically, by focusing on the Architecture, Engineering and Construction (AEC) projects, students will be introduced to important concepts related to planning and financing a project, budgeting and scheduling, and managing and controlling a technical engineering project.

Students will learn how to use Building Information Modeling (BIM) to 1) support the decision-making over a project life cycle and 2) improve coordination between stakeholders throughout the design and construction stages. With this hands-on course, students will learn how to integrate all models of a project to visualize construction processes and better predict, manage, and communicate project outcomes.

This course provides students with an in-depth understanding of how a general contractor pursues, estimates, bids and procures work. The course will cover the full range of activities from conceptual estimating, to scoping and bidding projects, to the submission of proposals to the general contractor's clients as well as the procurement types and the corresponding strategies that a general contractor employs in the pursuit of these procurements.

This course in an introduction to the design and behavior of prestressed concrete elements. It covers prestressing materials and concepts, working stress analysis and design for flexure, strength analysis and design for flexure, prestress losses, design for shear, composite prestressed beams, continuous prestressed beams, prestressed concrete systems concepts, load balancing, and slab design. Prerequisite: CE 3300 or equivalent.