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Course Criteria
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3.00 Credits
Fundamentals of engineering hydrology and hydraulic engineering. Water cycle and water balance, precipitation, evaporation, runoff, statistical methods, flood control, open channels and groundwater. Prerequisites: ES F341. Offered Fall
Prerequisite:
ES F341 UF C-
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3.00 Credits
Design and analysis of streets and highways with an emphasis on safety and efficiency. Design topics include: surveys, vertical and horizontal alignments, cross sections, and gravel roads. Analysis topics include: flow and gap acceptance theory, impact and safety analysis, signal timing and coordination. Prerequisite: CE F302. Offered Fall
Prerequisite:
CE F302 UF C- Concurrent
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3.00 Credits
Operation and control of transportation systems with emphasis on traffic on highways and streets. Traffic control devices, data collection, capacity and level of service analysis, intersection signalization, traffic impact analysis, accident analysis and other safety considerations. Prerequisite: CE F302. Stacked with CE F606.
Prerequisite:
CE F302 UF C-
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3.00 Credits
Reviews slope stability analysis. Introduces bearing capacity of soils and effects of settlements on structure; discusses design of footings and rafts, pile and pier foundations, retaining walls and anchored bulkheads, foundations on frozen soils, and construction problems in foundation engineering. Prerequisites: CE F326; ES F301. Offered Fall
Prerequisite:
CE F326 UF C- AND ES F301 UF C-
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3.00 Credits
Introduction to sources of earthquakes; source mechanism and source parameters; attenuation relationships; earthquake response of single and multi-degree of freedom systems; earthquake response spectra and earthquake-induced liquefaction and densification of soil. Prerequisites: CE F326. Offered As Demand Warrants
Prerequisite:
CE F326 UF C-
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3.00 Credits
Introduction to permafrost and frozen ground engineering, types of permafrost and ways of its formations, factors important for permafrost existence, hazards related to permafrost, index, thermal, and mechanical properties of frozen and thawing soils, methods of thermal analysis of soil freezing and thawing, foundations design alternatives, pipelines, roads and airfields in the permafrost region. Prerequisites: CE F326. Recommended: CE F422; GE F384. Offered Fall Stacked with CE F624.
Prerequisite:
CE F326 UF C-
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3.00 Credits
Introduces structural design philosophies and current practices related to steel design. Utilizes the AISC Specification to discuss the design of basic structural elements in steel including tension members, fasteners, welds, column buckling, beam behavior, beam-columns, and composite floor systems. Prerequisites: CE F331; ES F331. Offered Fall
Prerequisite:
CE F331 UF C- AND ES F331 UF C-
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3.00 Credits
Introduces structural design philosophies and current practices related to reinforced concrete design. Utilizes the ACI 318 Specification to discuss the behavior of reinforced concrete members and their design including flexural members, such as rectangular, T-beams, and one-way slabs, and axial members. Crack control, anchorage, development lengths and deflections are also covered. Prerequisites: CE F331; ES F331. Offered Spring
Prerequisite:
CE F331 UF C- AND ES F331 UF C- CE F331 UF D
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3.00 Credits
Design loads. Building systems and loading path. Physical and mechanical properties of wood. Design values and adjustment factors. Design of axial members, beams and columns. Connection details. Design of wood frame structures. Current National Design Specifications (NDS) for Wood Construction used. Prerequisites: CE F331; ES F331. Offered Fall Odd-numbered Years
Prerequisite:
CE F331 UF C- AND ES F331 UF C- AND CE F331 UF D
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3.00 Credits
Design-build technology for bridge structures is introduced. A bridge system is developed for a given crossing with predetermined specifications. Alternate designs are developed. These alternatives are based on design calculations, prepared drawings and suitability. Design ideas are developed and tested to verify if the idea meets the design assumptions. Techniques in design, fabrication, fund raising, project management, fiscal responsibility, safety, public speaking and teamwork are learned and used during the semester. The final structure will be load tested and graded based on meeting the goals of the specification. Prerequisites: Permission of instructor. Recommended: CE F432. Offered Spring
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