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Course Criteria
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3.00 Credits
Basic surveying operations and computations; theories of errors and their analysis; fundamental concepts of horizontal, vertical, and angular measurement; horizontal and vertical control systems; traverse computations; location of man-made structures; use of topographic maps. Preparation for Course P: ENGR 120, MA 165. Cr. 3.
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3.00 Credits
Basic surveying operations and computations; theories of errors and their analysis; fundamental concepts of horizontal, vertical, and angular measurement; horizontal and vertical control systems; traverse computations; location of man-made structures; use of topographic maps; computation of horizontal and vertical curves. Preparation for Course P: ENGR 120, MA 165 Cr. 3.
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3.00 Credits
Forces and couples, free body diagrams, two- and three-dimensional equilibrium of? particle and rigid bodies. Principles of friction, centroids, centers of gravity, and moments of inertia. Virtual work, potential energy, and static stability of equilibrium. Internal forces, shear and bending moment diagrams. Preparation for Course P: PHYS 152, MA 261. Cr. 3.
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3.00 Credits
Kinematics of particles in rectilinear and curvelinear motion. Kinetics or particles, Newton's second law, energy and momentum methods. Systems of particles. Kinematics and plane motion of rigid bodies, forces and accelerations, energy and momentum methods. Introduction to mechanical vibrations. Preparation for Course P: CE 250, MA 263. Cr. 3.
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3.00 Credits
Plane stress, plane strain, and stress-strain laws. Applications of stress and deformation analysis to members subjected to centric, torsional, flexural, and combined loading. Introduction to theories of failure, buckling, and energy methods. Preparation for Course P: CE 250. Cr. 3.
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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 191; 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
Study the nature and performance of civil engineering materials and evaluation of their physical and mechanical properties. This course focuses on materials used in construction and maintenance of building and infrastructure such as ferrous and nonferrous metals, aggregates, Portland cement, concrete, masonry, asphalt and asphalt mixtures, wood and composites. Emphasis will be placed on selection criteria, design, applications and proper use of these materials. Preparation for Course P: CE 252. Cr. 3.
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3.00 Credits
Continuum hypothesis, velocity field, fluid statics, basic conservation laws for systems and control volumes, dimensional analysis and similitude, Euler and Bernoulli equations, Navier-Stokes equations, viscous flows, boundary-layer flow in channels and around submerged bodies, applications. Preparation for Course P: ME 200, CE 251, MA 363. Cr. 3.
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1.00 Credits
Introduction to fluid mechanics laboratory and design of experiments, including experiments on flow patterns, velocity profile in an air pipe, wind tunnel calibration, draining of a tank, pipe friction, drag forces, boundary-layer studies, falling-ball experiments, and measurements of fluid properties. Preparation for Course P: CE 318. Cr. 1.
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3.00 Credits
Type and functions of management, types of construction, project delivery methods, types of construction contracts, the competitive bidding process, data and project management tools, early and detailed cost estimates, project planning, project scheduling with AOA and AON using the critical path method (CPM), project scheduling with uncertainty using PERT method, resource leveling and allocation, project financing options, project cash flow analysis, computer applications. Preparation for Course C: STAT 511. Cr. 3.
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