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Course Criteria
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3.00 Credits
Static, linear, structural analysis of trusses and frames for member forces and displacements. Analysis of cables and arches. Behavior of statically determinate and indeterminate systems using stiffness and flexibility formulations. Introduction to structural analysis software. Structural load calculations and load path. Recommended preparation: ECIV 310. Prereq: ENGR 200.
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3.00 Credits
Stiffness and flexibility formulations for frames and grids, and matrix methods. Mechanism limit state analysis of frames. Introduction to nonlinear analysis and stability. Structural behavior of arches, cable networks, and other structural systems. Prereq: ECIV 320.
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3.00 Credits
Professional role of a structural engineer. Professional and legal responsibilities. Design of structures, beams, columns, beam-columns, and connections. Structures of steel and reinforced concrete. Recommended preparation: ECIV 320.
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3.00 Credits
Continuation of ECIV 322. Collapse limit state analysis/design, torsion of concrete members, reinforcing steel details, compression reinforced flexural members, two-way slabs, slender columns, torsion of steel members, lateral and local buckling of steel members, plate girders, intro to prestressed concrete design and timber design. Recommended preparation: ECIV 320 and ECIV 322.
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4.00 Credits
The physical, chemical, and mechanical properties of soils. Soil classification, capillarity, permeability, and flow nets. One dimensional consolidation, stress and settlement analysis. Shear strength, stability of cuts, and design of embankments, retaining walls and footings. Standard laboratory tests performed for the determination of the physical and mechanical properties of soils. Laboratory. Recommended preparation: ECIV 310.
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3.00 Credits
Selected topics in construction management including specifications writing, contract documents, estimating, materials and labor, bidding procedures and scheduling techniques. The course is augmented by guest lecturers from local industries.
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3.00 Credits
The focus is on scheduling, and estimating and bidding for public and private projects. This includes highways as well as industrial and building construction. The use of computers with the latest software in estimating materials, labor, equipment, overhead and profit is emphasized. Recommended preparation: ECIV 340 and consent of instructor.
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3.00 Credits
Application of fluid statics and dynamics to Civil Engineering Design. Hydraulic machinery, pipe network analysis, thrust, hammer, open channel flow, sewer system design, culverts, flow gauging, retention/detention basin design. Applied hydrology, hydrograph analysis and hydraulic routing will also be introduced. Recommended preparation: Concurrent enrollment in ENGR 225.
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3.00 Credits
Introduction to probability, random variables, and non-deterministic modeling. Decision-making in civil engineering. Engineering economics. Introduction to optimization and linear programming. Reliability analysis.
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3.00 Credits
Water doctrine, probabilistic analysis of hydrologic data, common and rare event analysis, flood forecasting and control, reservoir design, hydrologic routing, synthetic streamflow generation, hydroelectric power, water resource quality, water resources planning. Recommended preparation: ECIV 351.
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