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Course Criteria
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3.00 Credits
Introduces techniques for the analysis of statically determinate and indeterminate structures to include beams, trusses and frames. Reviews internal force resultants, shear and moment diagrams, deflections, internal stresses. Discusses indeterminate analysis of structures, including methods of consistent deflections and slope-deflection. Provides an introduction to matrix methods.
Prerequisite:
CE A334 UA C AND ES A331 UA C
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3.00 Credits
Introduction to planning and engineering of transportation systems and their functions, components, and operation. Those systems include highways, airports, railroads, and water transportation with emphasis for highways on planning, geometrical design, traffic operations, and design of pavement structures.
Prerequisite:
CE A435 UA C
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3.00 Credits
Introduces students to a broad spectrum of engineering challenges unique to cold regions. Discusses physical principles and practical data collection methods, analyses, designs and construction methods. Students gain a working knowledge of cold regions engineering problems and modern solutions as a basis for more detailed study.
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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, and foundations in frozen soils. Addresses construction problems in foundation engineering.
Prerequisite:
CE A310 UA C
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3.00 Credits
Advanced knowledge of soil shear strength properties; analysis of slope stability, including seismic stability and design of slope stabilization; case histories study and applications to cold regions engineering problems. Registration Restrictions: Senior in civil engineering or instructor permission. May be stacked with: CE A614
Prerequisite:
CE A435 UA C
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3.00 Credits
Introduces multi-modal transportation systems, including highways, airports, railroads and water transportation. Discusses factors that influence planning, design and operation of these systems. Emphasizes highway systems.
Prerequisite:
ES A210 UA C AND GEO A155 UA C
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3.00 Credits
Discusses fundamental aspects of transportation engineering in the design of highway systems. Addresses the design of geometric elements of streets and highways with the focus on safety, efficiency and pavement design. Topical areas include roadway functional classification, traffic controls, vertical and horizontal alignments, cross-section, interchanges, and intersections.
Prerequisite:
CE A310 UA C AND CE A420 UA C
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3.00 Credits
Traffic engineering studies and analyses, traffic flow theory, traffic control systems design, signalization, and capacity analyses. May be stacked with: CE A623
Prerequisite:
CE A402 UA C
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3.00 Credits
Analysis and design of highway and airport pavements, principles of theoretical and practical approaches for the design of flexible and rigid pavement structures. Methods for asphalt concrete mixture design and performance measures. May be stacked with: CE A624
Prerequisite:
CE A334 UA C AND ES A331 UA C
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3.00 Credits
Geometrical and structural design, construction, and maintenance of highway facilities and associated economic, social, and environmental consequences. May be stacked with: CE A625
Prerequisite:
CE A402 UA C
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