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Course Criteria
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1.00 Credits
Application of structural steel design methods to specific cases. Prerequisite: CE 384, corequisite: CE 480.
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3.00 Credits
Fundamentals of reinforced concrete analysis and design. Design of beams, one-way slabs, short columns, and single footings. Calculations of cracking and deflection of beams. Prerequisite: CE 384, corequisite: CE 486.
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1.00 Credits
Integerated reinforced concrete design problems similar to those found in practice will be presented. Students will solve similar problems in class during the lab period. Prerequisite: CE 384, corequisite: CE 485.
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1.00 - 4.00 Credits
Topics of current civil engineering interest.
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1.00 - 4.00 Credits
Directed study, under the guidance of a faculty advisor, of a topic from the field of civil engineering not offered in a regularly scheduled course. Requires department chair permission.
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1.00 - 6.00 Credits
Under the advice and guidance of a faculty mentor, honors students will identify and carry out a research project, relevant to the field of Civil Engineering study, that will lead to a formal presentation at the Annual Honors Student Colloquium. The senior project will be judged and graded by three faculty, chaired by the honors mentor. This course is required for Honors recognition. A minimum of 4 credit hours is required, but a student may enroll for a maximum of 6 credit hours over two semesters. Prerequisites: Completion of the most advanced required course in the subdiscipline of the project (CE 440, CE 366, CE 470, or CE 384) and completion of an approved project prospectus.
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3.00 Credits
An overview of the unique aspects of the design environment faced by civil engineers along the coast including water wave mechanics, coastal water levels, coastal circulations and mixing, coastal groundwater levels and flow, coastal sediment transport, and hurricane winds.
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3.00 Credits
An introduction to the design of civil engineering infrastructure in the coastal environment including beaches, seawalls, revetments, bulkheads, piers, jetties, constructed wetlands, coastal bridges and roadways, hurricane resistant buildings, sewer outfalls and other environmental protection devices and coastal regulatory policy.
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3.00 Credits
An introduction to the construction industry and the role of civil engineering in construction. Construction engineering methods including preparation of cost estimates, critical path scheduling and resource allocation. Instructor permission required. Fee.
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3.00 Credits
Shearing strength and deformation behavior of soils with applications to retaining structures, slopes and bearing capacity. Behavior of cohesionless soils and cohesive soils under drained and undrained conditions. Permeability, steady state flow and effective stress in soils. Consolidation theory.
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