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Course Criteria
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3.00 Credits
LaboratoryStudents gain hands-on experience with experimentation in passive circuit investigations, steady-state and transient analysis, electrical instruments, magnetic and logic circuit investigations, and computer modeling experiments. Prerequisite: Co-enrollment in ETK 30. Three laboratory hours1 credit Spring
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3.00 Credits
IThis course covers the fundamentals of manual machine tool utilization. Topics include milling, turning, knurling, threading, surfacing grinding, tooling, feeds and speeds, blueprint reading, layout, proper tolerancing, metrology, and manufacturing processes. Prerequisite: high school algebra I and geometry recommended. Two class hours and three laboratory hours per week. Instructional Support Fee applies3 credits Fall
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3.00 Credits
IIThis course is a continuation of ETK 41 and covers modern, advanced machining processes using Computerized Numerical Control (CNC) for both milling and turning. It also discusses best practices for safety, tooling, setup and process sheets. Students use industrial software simulations and feeds and speeds databases. Prerequisite: ETK 41 and CAD 15, or permission of instructor. Two class hours and three laboratory hours per week. Instructional Support Fee applies3 credits Spring
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3.00 Credits
FundamentalsThis course studies the requirements of voice, data, and video transmission over wide area networks. It provides students with the basic knowledge required to install and configure wired, wireless, and fiber communications equipment using PC compatible computers. Students are required to install, set up, and configure basic home (peer to peer) networks. Prerequisite: ETK 13. Three class hours and three laboratory hours per week. Instructional Support Fee applies4 credits Fall
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4.00 Credits
MaterialsThis course studies the methods, materials, and equipment currently used in the construction of residential and commercial buildings, roads, and highways. Students learn the proper use, selection, specifications, strength and limitations, fire resistance, and code conformity of basic construction materials and fabrication processes. The laboratory will include fieldwork and basic laboratory testing procedures. Pre- or co-requisite: MTH 17 or MTH 10 and 13. Three class hours and two laboratory hours a week. 4 credits Fall
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3.00 Credits
EstimatingThis course covers estimating construction quantities with particular attention to material, labor and equipment costs, overhead and profit estimates, and work scheduling. Pre- or co-requisite: MTH 17 or MTH 10 and 13. Three class hours a week. 3 credits Fall
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4.00 Credits
DesignThis course introduces students to the design of structural members made of wood, steel and reinforced concrete. The course also covers wood and steel trusses, testing of selected members and sections. Prerequisite: ETK 54. Three class hours and two laboratory hours a week. 4 credits Spring
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3.00 Credits
This course considers the effects of forces on rigid bodies in two and three dimensions. Students apply engineering concepts of force vectors, moments, and static equilibrium to solve engineering design problems. The course investigates techniques for structural analysis of beams, columns, mechanisms, trusses and shafts. Topics include friction, torsion, centroids, center of gravity, moment of inertia, and shear and moment diagrams. Prerequisites: PHY 01 or PHY 11, and MTH 17 or MTH 10 and 13. Three class hours per week. 3 credits Fall
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3.00 Credits
StaticsThis course is to be taken concurrently with ETK 54 and covers advanced rigid body analysis techniques utilizing calculus. Students apply the engineering concepts of force vectors, moments and static equilibrium to solve engineering design problems for common engineering structures. They use these techniques to solve problems associated with friction, torsion, centroids, centers of gravity, moments of inertia, shear and moment diagrams, and Moh'r Circle. Prerequisite: MTH 15; Pre- or co-requisite: ETK 54 and PHY 12. Two laboratory hours per week .Instructional Support Fee applies1 credit Fall
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3.00 Credits
The study of the theory and practice of plane surveying with specific applications to civil engineering. Topics will include measurement theory and errors, distance measurement, leveling, bearings, azimuths, traverses, area determinations, stadia, topographic surveys, horizontal and vertical curves, and other related topics. Prerequisite: MTH 10/13 or MTH 17. Three class hours and three laboratory hours a week. Instructional Support Fee applies4 credits Fall
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