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Course Criteria
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3.00 Credits
Transportation functions; transportation systems, including land, air, and marine modes; transportation system elements,including traveled way, vehicle, controls, and terminals; techniques of transportation system planning, design, and operation. Preparation for Course C: CE 200 or consent of instructor. Cr. 3.
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3.00 Credits
Stress resultants (reactions, axial forces, shear forces, and bending moments) for beams and framed structures. Deflections of beams and frames by geometric methods (moment-area theorems and applications; conjugate beam analogy). Analysis of statically indeterminate beams and frames by classical stiffness methods; slope deflection and moment distribution. Influence functions and their applications. Preparation for Course P: CE 252. Cr. 3.
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3.00 Credits
Introduction to numerical methods for engineers. Topics include solution methods for nonlinear algebraic equations, sets of linear and nonlinear algebraic equations, eigenvalue problems, interpolation and curve fitting. numerical differentiation and integration, and techniques to solve ordinary and partial differential equations. Preparation for Course P: MA 363 Cr. 3.
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0.00 Credits
Practice in industry and written reports of this practice. For co-operative program students only. Preparation for Course P: CE 291; authorized equivalent courses or consent of instructor may be used in satisfying course pre- and co-requisites. Cr. 0.
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3.00 Credits
Introduction to the fundamentals and the basic concept of the finite-element methods through applications to problems in structures, solid mechanics, fluid mechanics and heat transfer. Emphasis on one and two dimensional problems. Computer implementation. Preparation for Course P: CE 318, CE 375. Cr. 3.
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1.00 - 6.00 Credits
Special topics that cover one or more topics in civil engineering related to structural engineering, environmental engineering, fluid mechanics, hydraulics, hydrology, geotechnical engineering, transportation engineering, pavement analysis and design, materials, and construction engineering and management. May include laboratory experiments if appropriate. Course may be repeated for credit. Preparation for Course P: determined by course offered. Cr. 1-6. Variable Title (V.T.)
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0.00 Credits
Practice in industry and written reports of this practice. For cooperative program students only. Preparation for Course P: CE 391; authorized equivalent courses or consent of instructor may be used in satisfying course pre- and co-requisites Cr. 0.
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0.00 Credits
Practice in industry and written reports of this practice. For cooperative program students only. Preparation for Course P: CE 491; authorized equivalent courses or consent of instructor may be used in satisfying course pre- and co-requisites. Cr. 0.
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3.00 Credits
Studies of stress and strain, failure theories, and yield criteria; flexure and torsion theories for solid- and thin-walled members; and energy methods. Preparation for Course P: CE 270 or 273. Cr. 3. Dual Level Course Dual-Level, Undergraduate-Graduate
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3.00 Credits
Fundamental concepts and practical applications related to the measurement of vertical and horizontal distances and angles utilizing steel tapes, automatic levels and theodolities. Computations of grades, traverses, and area. Basic concepts of topography and its uses. Preparation for Course C: MA 154 or MA 159 or equivalent or consent of instructor. Cr. 3. Hours Class 2, Lab. 3.
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