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Course Criteria
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1.00 Credits
Geometric design of highways; roadway structural section; flexible pavement design; rigid pavement design; highway surface treatments and stabilization. 2 lectures/problemsolving, 2 threehour laboratories. 249 Prerequisite: CE 220/L.
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3.00 Credits
History and operation of several principal modes of transportation. The principal modes include highways, air, inland waterways, railroads, coastwise shipping and ocean transportation. Emphasis is placed on the financing and planning aspects of transportation. Special modes are also developed. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisite: CE 222/L.
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3.00 Credits
Introduction to the theory of measurements in surveying. Error propagation in horizontal and vertical position. The analysis of surveying measurement errors. Error propagation in rectangular coordinate systems. Introduction to the techniques of least squares in the adjustment of surveying data. Least squares adjustment of triangulation, trilateration and traverse networks. The use of computers in surveying. 3 lectures/problemsolving. Prerequisites: CE 220, Cor better in MAT 216 or MAT 224, MPT or CE 110/110L.
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14.00 Credits
Group study of a selected topic, the title to be specified in advance. Total credit limit to 8 units, with a maximum of 4 units per quarter. Instruction is by lecture, laboratory, or a combination.
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4.00 Credits
Foundation of engineering economics. Effect of time and interest on money in various combinations: Nominal and effective interest rates, present worth analysis, annual worth analysis, rate of return analysis and cost/benefit analysis. 4 lectures/problemsolving. Prerequisite: completion of Area A GE requirements.
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2.00 Credits
Computer programming in an objectoriented programming language; numerical and statistical methods as applied to civil engineering. 2 lectures/problemsolving and 1 twohour activity. Prerequisites: Cor better in MAT 216 or MAT 224, MPT or CE 110/110L.
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4.00 Credits
Classification of structures, types of framing systems and loading. Statics and stability of determinate structures including cables, cantilever types, arches, beams, frames, and trusses by analytical and graphical methods. Deformation of determinate beams, frames, and trusses. Approximate methods of indeterminate frame analysis. 4 lectures/problemsolving. Prerequisites: ENG 104, Cor better in ME 218, and Cor better in MAT 216 or MAT 224.
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4.00 Credits
Types and characteristics of indeterminate beams and framed structures. Analysis utilizing classical methods including consistent displacements, virtual work, slope deflection, moment distribution. Computer solutions based upon flexibility and stiffness matrices. 4 lectures/problemsolving. Prerequisites: CE 304 and either CE 303 or CE 240.
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1.00 Credits
Load and deflection testing of civil engineering prototype structures, beams, frames, arches, and trusses with the objective of enhancing structural analysis principles learned in CE 304 and CE 305. Use of shake table for undergraduate students to learn the fundamental principles of structural dynamics and earthquake engineering. 1 threehour laboratory. Prerequisite: CE 305.
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3.00 Credits
Spherical trigonometry; Cartesian and curvilinear coordinates; transformations; geodetic datums; geodetic position computation; major control network extension; satellite and terrestrial positioning system. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisite: CE 134/134L, CE 240 or CE 303.
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