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Course Criteria
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3.00 Credits
Internal forces; stress, strain, and their relations; stresses and deformations in axial and torsional loading; indeterminate problems; stresses and deformations in flexural members; transformation of stresses; introduction to member design; column buckling analysis. Prerequisite: C or better in CE 150 or equivalent.
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3.00 Credits
Experimental evaluation of the physical and mechanical properties of construction materials including soils, concrete, steel, timber, and asphalt. Index properties on soils; compaction density and consolidation; tensile, compressive, and flexural behavior of concrete, steel, and timber; concrete mix design; and physical tests on asphalt binder. Prerequisite: CE 270 or concurrent enrollment.
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4.00 Credits
Fluid properties and fluid motion: basic laws of motion in integral form; applications of basic laws in solving fluid flow problems. Hydrostatics, dimensional analysis, similitude, and incompressible viscous flow (both laminar and turbulent) in conduits. Boundary layer theory. Introduction to open channel flow; culverts, sewers, and streams. Laboratory experiments to demonstrate theory and flow measurement in conduits and open channels. Prerequisite: C or better in CE 250.
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3.00 Credits
Basic probabilistic and statistical decision principles used in civil engineering design and practice. Probabilistic models and decision theory. Prerequisite: C or better in MTH 122.
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3.00 Credits
Pavement engineering and design. Selection testing, and use of highway pavement construction materials in relation to function, environment, and cost. Structural properties of asphalt (flexible) and concrete (rigid) pavements; laboratory experiments. Prerequisites: CE 280, CE 380 or CON 320.
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4.00 Credits
Analysis of statically determinate structures including influence lines. Deflections by area-moment, conjugate beam, and Castigliano's theorem. Analysis of statically indeterminate structures including influence lines. Classical solutions by consistent displacements, three-moment theorem, moment distribution, and slope deflection methods. Matrix methods for structural analysis by stiffness approach. Prerequisite: C or better in CE 270.
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4.00 Credits
Analysis techniques and design procedures for unit operations and unit processes for water and waste water treatment. Techniques for examination of water and waste water quality. Prerequisites: CHM 110 and CHM 111.
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3.00 Credits
Physical properties of soils, soil profiles, and deposits. Soil strength determination. Flow of water through soil masses. Prerequisites: CE 270, CE 280; CE 304 or concurrent enrollment.
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1.00 Credits
Papers, reviews, and discussion of current technical literature. Prerequisite: senior standing in civil engineering.
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3.00 Credits
Theory and design of reinforced concrete structures: beams, columns, slabs, walls, and buildings. Current ACI Code provisions for elastic and ultimate design. Prerequisite: C or better in CE 280, CE 359.
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