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Course Criteria
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1.00 Credits
Laboratory study of the flow of fluids. Uses laboratory data to quantify hydrostatic forces, flow rates in pipes and open channels, forces due to impact, and flow regimes in open channels. Student conduct experiments and prepare written reports. (Y) Prerequisites & Notes Corequisite: CE 315. Credits: 1
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3.00 Credits
Studies the properties and behavior of engineering materials, emphasizing construction materials, including metals, concrete, wood, and composites. Considers service conditions and underlying scientific principles related to applications and performance of materials.
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1.00 Credits
Laboratory study of the macroscopic mechanical, thermal, and time-dependent properties and behaviors of typical civil engineering construction materials (metals, concrete, wood, plastics). Students plan and conduct experiments, and prepare written reports. Corequisite: CE 323.
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3.00 Credits
Introduces the fundamental principles of particulate mechanics with an emphasis on soil strength, consolidation behavior, and fluid flow. Concepts of theoretical soil mechanics and soil physics combined with laboratory investigation of soil behavior. Prerequisites: CE 2310.
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1.00 Credits
Introduction to Geotechnical Engineering Lab. Prerequisites: CE 2310. Restricted to Civils.
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3.00 Credits
Construction engineers plan and manage the construction of infrastructure needed by society, working with four fundamental resources: labor, machinery, materials, and money. This course introduces students to the activities and challenges of construction engineering, with an emphasis on scheduling and estimating. The course includes numerous guest speakers from industry.Cannot receive credit for both CE 4000 & ARCH 5340. Prerequisites: CE 2010
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3.00 Credits
Introduction to the design of metal structures, emphasizing the rational development of? design methods for structural members, subsystems and systems. The? objective is to develop a sound behavioral basis for interpreting design codes, using mechanics and experimental bases.? Topics include the behavior and design of tension, compression, and flexural members in metal, and the behavior and design of bolted and welded connections, using the AISC Load and Resistance Factor Design (LRFD) specification. (Y) Prerequisites & Notes Prerequisite: CE 231, 319, or instructor permission. Credits: 3
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3.00 Credits
Fundamentals of concrete: ingredients, hydration, and proportioning; production of concrete: batching, transport, finishing, curing, testing, and inspections; special types of concrete; high-performance, fiber-reinforced, roller compacted, polymer, shrinkage compensating, structural light-weight, and shotcrete; and design and code provisions: working stress and ultimate strength design, and provisions of ACI code. Prerequisites: CE 3700.
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3.00 Credits
Analyzes the behavior and design of continuous beams, plate girders, composite steel-concrete members, members subjected to combined bending and compressions, and eccentric connections usine LRFD design approach; and torsion and torsional stability of structural members. (Y)????? Prerequisites & Notes Prerequisite: CE 401. Credits: 3
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3.00 Credits
Introduces the concepts of design, performance, and analysis of rigid and flexible pavements. Focuses on: review of engineering materials used for pavement construction, empirical and mechanistic design methodologies for pavement construction and rehabilitation, influence of traffic loading on pavement performance, life-cycle cost analysis techniques, and pavement management. Prerequisites: CE 3700
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