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Course Criteria
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1.00 Credits
Students study how forces and moments affect axial, shearing, and bending stresses and defl ections of structural and machine members. The relationships between stress and strain, for both axial and torsional loading are explored. Beams, shafts, bolted or pinned joints and columns are analyzed and designed based on stress and deformation. Combined stress states are analyzed, including using Mohr's circle. Applications are drawn from the fi elds of mechanical and civil engineering technology. (A grade of C or better in 0610-302) Class 4, Lab 1, Credit 4
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2.00 Credits
This laboratory course deals with the equipment, instrumentation and ASTM Standard Test Procedures used to perform physical tests on various materials, and the preparation of laboratory reports. (0610-211 concurrently) Class 0, Lab 2, Credit 1
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2.00 Credits
This course involves the study of the basics of fl uid power. Areas of study are pressure viscosity, turbulence, fl ow, thermal properties and displacement. Hydraulic/pneumatic components such as pumps, actuators, valves accumulators, lines, directional controls, sealing devices servomechanisms, hydraulic fl uids, and fl uid containers are studied. (0610-302) Class 3, Lab 2, Credit 4
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2.00 Credits
Students develop profi ciency in solving simultaneous equations, numerical differentiation and integration, and curve fi tting of data using mathematical and computational techniques. These applications are evaluated critically and students develop the ability to select the most appropriate methodology for a given problem. Students critically evaluate the solution results while working on project assignments in teams. (Corequisite 1016-232) Studio 2, Credit 1
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3.00 Credits
This course introduces students to the different aspects of different types of welding. Students will experience and learn welding techniques such as MIG, TIG, Stick and oxyacetylene welding. Actual practice with technologies such as MIG and TIG will reinforce concepts and provide practical handson experience. Several sample test parts will be welded in a lab and broken with a tensile tester to evaluate the calculated load compared to the welded joint strength. Weld samples will be microscopically inspected to determine the heat affected zone of the material. Oxyacetylene and plasma cutting will be experienced. Interpreting weld symbols on drawings will be learned and applied. Lab Fee: $75.00 payable to welding company. Student receives safety glasses, welding gloves, and lab coat which they keep. Lab is held offsite. Transportation required. (0610-211, 0610-304) Credit Lecture 1, Lab 2
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1.00 Credits
This course provides design fundamentals for mechanical systems that utilize components such as brakes, clutches, shafts, gears, and pulleys. This project based course will use reverse-engineering techniques to investigate component form, fi t, and function along with parts reduction, fabrication alternatives, and feature improvements. Parts fabrication vs. catalog selection will be discussed. Ethics, as it relates to mechanical design, and life long learning skills, will be enforced through examples of job expectations and direct student practice in the classroom. (0610-220, 303 and 0617-220) Class 3, Lab 1, Credit 4
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3.00 Credits
Students develop profi ciency in the solution simultaneous equations, numerical differentiation and integration, statistics and curve fi tting of data using mathematical and computational techniques. These applications are evaluated critically and students develop the ability to select the most appropriate methodology for a given problem. Students critically evaluate the solution results while working on project assignments in teams. (Corequisites 1016-232, 1016-319) Lecture 1, Lab 3, Credit 2
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3.00 Credits
A supervised investigation within a mechanical technology area of student interest. Consent of the instructor and departmental approval are required. Credit 1-8
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2.00 Credits
In this course, the modes of failure of mechanical parts: static, fatigue, and surface are studied. The mechanisms of the different failure modes are presented, as well as the different models used to predict behavior of mechanical parts under various loading conditions. Concepts are applied to the analysis and design of mechanical components. The computer is used extensively in the design process. (0610-303, 1016-231) Class 3, Studio 2, Credit 4
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2.00 Credits
The principles of dynamics and the solution of practical engineering problems are studied. The two-dimensional dynamic analysis of particles and rigid bodies are performed using the three fundamental analytical methods. These problems are also solved using computer simulation software. (0610-302 and 1016-231) Class 3, Studio 2, Credit 4
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