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Course Criteria
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3.00 Credits
Prerequisite: IST 101 or equivalent proficiency Students use Microsoft PowerPoint software to create and customize presentations, including insertion of tables, flowcharts and organization charts. Students work with objects, lines, fills and colors, text manipulation, drawing techniques, animation and slide show effects. 2 lecture/2 laboratory hours
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3.00 Credits
Prerequisite: IST 209 Explores frequently used tools for project management. Addresses usage of a major software package to build project plans complete with tasks and resources, to format project reports, to track actual work against the plan, and to take corrective action when things get off track. 2 lecture/2 laboratory hours
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3.00 Credits
Corequisites: MAT 115 or divisional permission; ENT 116 or prior drafting experience; DRA 190 Introduces the three basic surveying tools -- the tape, level, and transit/theodolite -- along with proper field procedures for basic surveying. These include taking field notes, taping and EDM, leveling, bearings and azimuths, topography, and mapping -- the latter including an introduction to computer-aided design. 2 lecture/3 laboratory hours
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3.00 Credits
Prerequisite: CIV 101 or permission of instructor Application of the fundamentals and techniques achieved in elementary surveying to solve additional problems in vertical curves, horizontal curves, traversing computations and profiles. Computations include bearings and azimuths, latitudes and departures, areas, and use of the planimeter. Applies AutoCAD and land development software, plus "Total Station" survey equipment for traversing, radial stakeout, and layout of horizontal curves. 2 lecture/3 laboratory hours
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3.00 Credits
Prerequisites: MAT 146 with a minimum C grade; one semester of high school or college physics Corequisite: MAT 151 Calculus-based introduction to the basic principles of engineering statics, including terminology and types of force systems, for engineering science students. Topics include the resultant force of a force system; distributed and concentrated forces; force systems in equilibrium, trusses, frames and machines; friction; centroids; and moments of inertia. 3 lecture hours
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3.00 Credits
Prerequisite: MAT 115 or divisional permission Introduction to the basic principles of engineering mechanics for study of applied technology. Topics include terminology, types of force systems, determination of the resultant force of force systems, analysis of coplanar force systems in equilibrium, centroids, and moments of inertia and friction. [Spring offering] 3 lecture hours
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3.00 Credits
Prerequisite: MAT 115 or divisional permission Introduction to the basic principles of engineering mechanics, including terminology and types of force systems, for engineering technology students. Topics include the resultant force of a force system, distributed and concentrated forces, force systems in equilibrium, trusses, frames and machines, friction, centroids, and moments of inertia. 3 lecture hours
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3.00 Credits
Prerequisites: MAT 115 and ENT 116 Corequisites: CIV 102, DRA 190, or divisional permission Explores the planning, design, construction, and characteristics of highways and city streets, including layout, traffic requirements, safety and control, drainage, subgrade structure, base courses, and surface pavements. Problems to be solved include geometric design, traffic volume, channelization, and hydrology. Lab projects involve roadway designing. [Spring offering] 2 lecture/2 laboratory hours
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3.00 Credits
Prerequisites: CIV 101, CIV 102 Topics include evidence and procedures for boundary control, legal research techniques, writing legal descriptions, real estate law, and boundaries which include adjacent and riparian boundaries, with particular reference to New Jersey surveying history and state laws. 3 lecture hours
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3.00 Credits
Prerequisite: CIV 102 Use of civil and surveying software within the AutoCAD drafting package. Projects involve topographic maps, areas and volumes of cross-sections, plan and profile of highways, subdivisions, digitizing, horizontal and special curve problems, coordinate computations in traversing, intersections and transformations. 2 lecture/3 laboratory hours
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