Schedule of Classes

Analysis of two- and three-dimensional force systems by vector algebra. Applications of principles of equilibrium to particles, rigid bodies, and simple structures. Friction, distributed forces, center of gravity, centroids, moments of inertia. U.S. and SI systems of units and applications.

Full-time cooperative education assignment for civil engineering students who alternate periods of full-time school with periods of full-time academic or career-related work in industry. Satisfactory/Unsatisfactory.

Introduction to numerical methods commonly needed to solve complex problems and work with datasets in civil engineering. Software skill development through application; including arrays, programming basics, analysis and visualization of numeric data, and development of mathematical models in spreadsheets and scripts.

Kinematics and kinetics of particles and rigid bodies using vector analysis. Kinetics includes principles of force-mass-acceleration, work-energy, and impulse-momentum.

Fluid properties and fluid motion: basic laws of motion in integral form; applications of basic laws in solving fluid flow problems. Hydrostatics, dimensional analysis, similitude, and incompressible viscous flow (both laminar and turbulent) in conduits. Introduction to open channel flow; culverts, sewers, and streams. Laboratory experiments.

Internal forces; stress, strain, and their relations; stresses and deformations in axial and torsional loading; indeterminate problems; stresses and deformations in flexural members; transformation of stresses; introduction to member design; column buckling analysis.

Basic probabilistic and statistical decision making principles used in civil engineering design and practice. Probabilistics models and decision theory.

Pavement engineering and design. Selection testing, and use of highway pavement construction materials in relation to function, environment, and cost. Structural properties of asphalt (flexible) and concrete (rigid) pavements; laboratory experiments.

Theory and design of reinforced concrete structures: beams, columns, slabs, walls, and buildings. Current ACI Code provisions for elastic and ultimate design. Laboratory experiments.

Introduction to engineering economics with applications to assessment of sustainable alternatives in infrastructure, ability to engage in life-long learning, knowledge of contemporary issues, understanding professional and ethical responsibility, and ability to function on multi-disciplinary teams. Applications of systems engineering concepts including optimization.

To review Civil Engineering topics in preparation for the Fundamentals of Engineering (FE) Examination offered through the National Council of Examiners for Engineering and Surveying (NCEES). Satisfactory/Unsatisfactory.

Analysis and design of footings, raft foundations, retaining walls, piles, and caissons, based on current theories and design considerations in soil mechanics, concrete, and steel.

Water use and wastewater generation. Conveying and distributing water. Wastewater and stormwater conveyance system design. Design of storage structures and other systems for water conservation and water use; open channel flow, closed conduit flow, hydraulic structures, hydraulic power conversion.

Detailed design of systems. Application of engineering design principles to realistic projects in structural engineering, environmental engineering, site development. Codes and standards, feasibility studies, consideration of design alternatives, selection criteria including systems sustainability, and aesthetics. Oral and written report of final design with specifications, engineering drawings, and project cost estimates.

Theory and analysis of prestressed concrete members by various methods of prestressing; design of simple and continuous beams and slabs; prestress losses; composite beams. Extensive study of materials used in prestressed concrete. Precast concrete systems.

Planning and analysis of urban transportation; travel demand models including trip generation, trip distribution, mode choice and traffic assignment; land use planning, site impact analysis and traffic impact studies for proposed developments, and context sensitive solutions.

Research on a topic selected by the student and approved by the chair. Repeatable to a maximum of six hours total.