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C E 517: Mechanics of Sediment Transport
3.00 Credits
Washington State University
Cohesive and non-cohesive sediments; initiation of sediment motion; sediment transport; suspended and bed load entrainment; models of sediment transport for alluvial and gravel bed streams, sediment-flow interaction; river morphology and ecological restoration. Cooperative course taught jointly by WSU and UI (CE 521).
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C E 517 - Mechanics of Sediment Transport
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C E 518: Hazardous Waste Engineering
3.00 - 4.00 Credits
Washington State University
Prereq graduate standing. Graduate-level counterpart of C E 418; additional requirements. Credit not granted for both C E 418 and 518.
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C E 518 - Hazardous Waste Engineering
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C E 519: Hazardous Waste Treatment
3.00 Credits
Washington State University
Prereq C E 518. Graduate-level counterpart of C E 419; additional requirements. Credit not granted for both C E 419 and 519.
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C E 519 - Hazardous Waste Treatment
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C E 524: Geotechnical Earthquake Engineering
3.00 Credits
Washington State University
Faulting and seismicity; site response analysis; probabilistic seismic hazard assessment; influence of soil on ground shaking; response spectra; soil liquefaction; seismic earth pressures; seismic slope stability; earthquake resistant design. Cooperative course taught jointly by WSU and UI (CE 566).
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C E 524 - Geotechnical Earthquake Engineering
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C E 525: Soil and Site Improvement
3.00 Credits
Washington State University
Prereq C E 317. Graduate-level counterpart of C E 425; additional requirements. Credit not granted for both C E 425 and 525. Cooperative course taught by WSU, open to UI students (CE 567).
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C E 525 - Soil and Site Improvement
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C E 527: Engineering Properties of Soils
3.00 Credits
Washington State University
Prereq C E 317. Physical properties, compressibility and consolidation, shear strength, compaction, saturated and unsaturated soils, laboratory and field methods of measurement, relations of physical and engineering properties, introduction to critical-state soil mechanics. Cooperative course taught by UI, open to WSU students (CE 561).
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C E 527 - Engineering Properties of Soils
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C E 528: Advanced Foundation Engineering
3.00 Credits
Washington State University
Prereq C E 317. Interpretation of in-situ tests for foundation design parameters, bearing capacity and settlement of axially loaded piles, pile groups, and drilled shafts, pile dynamics, laterally loaded deep foundations, downdrag and uplift of deep foundations, foundation load and integrity testing methods and data interpretation, mat foundations. Cooperative course taught by UI, open to WSU students (CE 562).
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C E 528 - Advanced Foundation Engineering
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C E 530: Advanced Design of Steel Structures
3.00 Credits
Washington State University
Prereq C E 431. Plate girder design; local and global buckling; plastic collapse analysis; shear and Moment-resisting connections; eccentrically-loaded connections. Cooperative course taught jointly by WSU and UI (CE 542).
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C E 530 - Advanced Design of Steel Structures
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C E 531: Probability and Statistical Models in Engineering
3.00 Credits
Washington State University
Engineering applications of probability and statistics; Monte Carlo simulation; model estimation and testing; probabilistic characterizations of loads and material properties; risk and reliability analyses. Cooperative course taught jointly by WSU and UI (CE 545).
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C E 531 - Probability and Statistical Models in Engineering
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C E 532: Finite Elements
3.00 Credits
Washington State University
Theory of finite elements; applications to general engineering systems considered as assemblages of discrete elements. Cooperative course taught jointly by WSU and UI (CE 546).
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C E 532 - Finite Elements
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