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Course Criteria
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3.00 Credits
Maintaining and operating a safe work environment on construction sites through the understanding and application of the OSHA standards as represented in the 29 CFR 1926. Students learn about hazard identification and mitigation through a properly designed safety program including recording and reporting of construction accidents.
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3.00 Credits
Understanding the physical and operational properties of different soils including visual identification and inspection, and lab testing. Students learn about soil classifications and structural performance under different types of loads, the interaction between different soil types, and proper selection of the suitable type of foundation.
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3.00 Credits
Supervised, objective-based work experience related to the construction management major. This experience is to be coordinated by faculty, employer, coop coordinator, and student. Minimum of 20 hours on the job per week (300 hours per semester) are required of every student. Open to all students majoring in construction management. Applications are to be made to the Department of Construction Management.
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3.00 Credits
Review of the project life cycle during its phases of development including different project parties and their interaction. Students learn about project delivery methods and their applicability to a variety of project structuring and teaming agreements. Students are exposed to project scope coordination and verification through a thorough review of the project documents including drawings, specifications, and regulatory requirements including insurance and bonding, as well as bidding procedures and contract termination.
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3.00 Credits
A review of the fundamental principles and materials for electrical work including, lighting, low voltage, and power supply for building construction. Students will be exposed to the selection and installation of electrical components including conduits, light fixtures, power, fire alarm, communications, and low voltage networks.
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3.00 Credits
Interpretation of Construction drawings and specifications, quantity take-off, types of estimates and their uses, estimating direct and indirect job costs, impact of project delivery system on cost and price, and introduction to bidding strategies. Computer applications in construction estimating.
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3.00 Credits
Introduction to concepts used in statics, strength of materials and structural analysis as they relate to providing stability for structural components used for determinate temporary load support systems, bracing, shoring/reshoring, and other determinate construction load circumstances. Topics include equilibrium, stability/instability, free body diagrams, the calculation of loads resulting in compressive and tensile forces on elements used to support temporary load conditions; assessment of the strength of components to resist such loads; analysis of components' behavior under varying load conditions, basic design considerations of common temporary construction structures such as formwork, bracing of vertical elements, and retaining walls. Treatment of load path for statically determinate structures will also be introduced in this course.
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3.00 Credits
Practices in land planning and subdivision development. Topics include subsurface utility system planning, environmental protection and controls, project financing and marketing.
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3.00 Credits
Applications of time management in construction projects including project planning and scheduling techniques. Topics include development of bar charts, critical path method (CPM), resource allocation, probabilistic scheduling, schedule updating, cash flow baseline, time- cost tradeoff, linear project scheduling, and computer applications in schedule development and control.
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3.00 Credits
Investigation of issues related to the functions and use of construction equipment. Topics related to productivity calculation and improvement, sizing and cycle times, coordination and mixing and matching. Topics also include equipment costing issues and economic considerations on buying, leasing, and/or renting construction equipment. Applications to earthwork operations, concrete mixing and placement, lifting, and piling equipment. Application to civil design and earth structures.
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