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Course Criteria
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2.00 Credits
This course is a study of force systems and their actions on bodies at rest.Topics include force systems, equilibrium of force systems, distributed forces, friction, moments of inertia, centroids, and bending and shear diagrams.The Laboratory component emphasizes computer analysis. Prerequisite: MA121 Fundamentals of College Mathematics or a higher level mathematics course which includes trigonometry, or permission of the Department Head.
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2.00 Credits
This course introduces computer programming techniques using a variety of tools such as BASIC and spreadsheets. Case studies emphasize computer applications to mechanical engineering technology. (Fall semester)
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2.00 Credits
This applied statistics course provides measuring tools for quality control and process control in manufacturing.Topics include frequency distributions;measures of central tendency and of dispersion; natural tolerances, control charts for variables and for attributes; probability theory and applications to sampling and to operational characteristic (O-C) curves; acceptable quality level (AQL) sampling plans; Pareto charts; and, random number tables. Prerequisite:An appropriate Mathematics placement test result, or MA045 Basic Math Skills, or MA050 Introductory Mathematics. (Fall semester)
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4.00 Credits
This course provides the foundation and problem-solving skills necessary to develop and interpret engineering drawings using the computer-aided drafting software (AutoCAD).Topics include assembly and detail drawing composition; design for assembly/manufacturing (DFA/DFM); geometric dimensioning and tolerancing; tolerance control and standard fits; fasteners; gearing; sheet metal developments; weldments; functional drafting techniques; and the development of 2-D and 3-D CAD generated drawings and system operations. Corequisite: MT101 Engineering Drawing or permission of the Department Head.
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4.00 Credits
This course introduces the theory and practices of metal removal as applied in industry.The set-up and safe operation of conventional machine tools is stressed, along with their capabilities and limitations. Common processes such as drilling, grinding,milling, threading, and turning are utilized.Topics include speeds and feeds, metal cutting theory, cutting fluids, selection of tooling, fixturing, precision measurement, and layout procedures. Prerequisites: MT101 Engineering Drawing or MT121 Mechanical Drafting, and MA105Technical Mathematics 1. (Spring semester)
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4.00 Credits
This course is an introduction into the use of three-dimensional solid modeling CAD software.Topics include creating models using features such as protrusions, cuts, rounds, blends, revolutions, and sweeps. Model planning and design intent are stressed.Assemblies, drawings, documentation, and detailing are also covered, as well as output and interfaces with common software such as spreadsheets and word processing. Corequisite: MT101 Engineering Drawing or permission of the Department Head.
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6.00 Credits
This course covers the theory,methods, and use of acetyleneequipment to oxy-weld and cut in all positions.Welding supply fee required.
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2.00 Credits
This course introduces the use of personal computers as engineering tools for work enhancement. It provides hands-on experience with the computer and its hardware, a comparison of operating systems, and internet-based functions. Computer-aided design,word processing, spreadsheets, and digital presentations are covered.
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6.00 Credits
This course provides proficiency in oxy-acetylene welding procedures, including the theory and use of electric arc welding.Topics include welding ferrous and nonferrous metals in all positions, and the theory of pipe design and cutting.Welding supply fee required.
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6.00 Credits
This series of assessment-based courses introduces the theory and practices of metal removal as applied in industry.The set-up and safe operation of conventional machine tools is stressed along with their capabilities and limitations.Topics include common processes such as drilling, grinding, milling, threading and turning, speeds and feeds, metal cutting theory, selection of tooling, fixturing, precision measurement, layout procedures, and basic blueprint reading.A capstone project consists of design, machining, inspection, and evaluation of a product.The program may be entered at multiple points during the academic year.
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