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Course Criteria
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4.00 Credits
This course applies the basic principles of hydraulics as related to the design of pipe distribution systems. Topics include the sizing and selection of pumps, open channel flow, flow through hydraulic structures, the elements of hydrology, rainfall runoff analysis, drainage design, and flood flow analysis. Prerequisite: (Test scores or ENG 102 or higher) and (Test scores or MAT 183 or higher) and CET 125
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4.00 Credits
This course covers the fundamental concepts of site and subdivision planning. Consideration is given to zoning and subdivision ordinances and governmental regulations. Site design projects include design calculations and complete preliminary construction drawings for a conceptual subdivision. Students work with other related disciplines to model real industry collaboration. Prerequisites: CET 144 and CET 240 and ((CET 225 and GIS 101) or ((CET 220 or concurrent) and (ENG 122 or ENG 130 or concurrent))) and (Test scores or MAT 190 or MAT 193 or higher)
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3.00 Credits
In this cooperative educational work experience, students develop technical skills in the methods and computations of advanced surveying. Surveying techniques based on total stations with data collectors, the Global Position System (GPS) in static and/or kinematic data collection and computers are explored. Additional topics include the global navigation satellite systems (GNSS), data quality, geodesy, geodetic reductions and emerging geospatial technologies. Prerequisites: (Test score or ENG 102) and (Test score or MAT 180 or MAT 183 or higher) and GIS 101 and (CET 125 or GIS 120) and CET 144
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3.00 Credits
This course introduces fundamental principles of highway and road design to include safety, speed, terrain, and operating volumes as they apply to roadway width, side slopes, curvature, and gradient. Design problems include horizontal curves, compound curves; cross-section areas and volumes; vertical curves and alignments. Prerequisites: (Test Score or ENG 101) and CET 125 and CET 144 and EDD 171.
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3.00 Credits
This course covers particles, rigid bodies, trusses, frames, and machines. Students study rigid objects that are either at rest or move with a constant velocity and that are subject to forces. Topics include calculating forces acting on and within such objects to understand their behavior and to inform their design. Prerequisites: MAT 281 and (PHY 281 or concurrent)
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3.00 Credits
The course covers topics including the concepts of stress and strain, plane stress, transformation of stress and strain, Mohr's circle, material properties, and stress-strain relationships. This course provides determination of stresses and displacements in axially loaded members and pressure vessels, stresses and displacements in round bars subject to torsion, impact, and dynamic loads. The basic mechanics for the design and analysis of simple structures, and mechanics of deformable bodies is included. Prerequisites: (Test Scores or ENG 101 or higher) and CET 258
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3.00 Credits
Students may complete technical electives for which they have written prior approval of the department chairperson.
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1.00 Credits
This course is designed for students with little or no chemistry background. It is an introduction to basic concepts of chemistry focused on chemical bonding, physical and chemical changes, and types of chemical reactions, acids, bases, and salts. Prerequisites: SSC 100 or concurrent
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4.00 Credits
This course will include matter and measurement, the periodic table, nomenclature, chemical reactions, states of matter, solutions, rates of reactions, equilibrium, acid/base, nuclear and organic chemistry. In the lab, a strong emphasis is placed on chemical laboratory skills in correlation with lecture topics. Pre-Requisites: SSC 100 or concurrent
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4.00 Credits
This course includes a study of organic compounds and reactions and a basic study of biochemical reactions in- volving carbohydrates, lipids, and proteins and their metabolism. Laboratory experiments are used to illustrate theory. Prerequisite: CHM 110
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