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Course Criteria
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3.00 Credits
Ordinary differential equations and their solutions. Classical solutions of linear differential equations, solutions by use of series and by Laplace transforms. Matrix procedures with solutions to linear systems of differential equations using eigenvalues. Introduction to partial differential equations. Applications in the field of chemistry, physics and engineering. (TI-83 plus or TI-84 plus required) Prerequisite: MATH 261 (C or better required) 4 credits (4 lecture hours), spring semester These credits count towards the Math and/or Science (List B) requirements for graduation.
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3.00 Credits
Basic principles, capabilities and limitations of machine tools, theory of single and multiple point cutting tools and metal removal. Machine operations and setup, measuring devices, safety and use of hand tools. Co-requisite: MAGN 101 3 credits (2 lecture hours, 3 laboratory hours), fall or spring semester
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1.00 Credits
Types of tools used in machine shops, with hands-on experience. Machining of several simple small parts, with methods of machining being more important than accuracy, surface finish, etc. 1 credit (1 lecture hour, 2 laboratory hours), 8 weeks, fall semester
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3.00 Credits
A study of material properties, limitations, processing, testing, and specification. Course includes plastics, metals, ceramics, composites, cements and other important engineering materials. 3 credits (2 lecture hours, 3 laboratory hours), fall and spring semesters These credits count towards the Math and/or Science (List B) requirements for graduation.
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3.00 Credits
Development of the various analytical methods to determine force acting on a particle of rigid body at rest, in a plane or in space. Determination of forces in transmission lines, cables, trusses, machine components and structures. Forces introduced as a result of friction and location of first and second moments. Spreadsheet of software applications. Prerequisite: PHYS 107 (C or better required) Co-requisite: MATH 103 3 credits (2 lecture hours, 1 recitation hour), fall/spring semester These credits count towards the Math and/or Science (List B) requirements for graduation.
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3.00 Credits
Study of translation and rotation plane motion. Graphical kinematic analysis including instant centers, absolute and relative velocities, and accelerations. Graphical differentiation of motion curves. Computer applications. Prerequisites: CAD 186, MECH 211 4 credits (3 lecture hours, 2 laboratory hours), spring semester
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3.00 Credits
Physical properties of engineering materials including relationships between stress and strain, beam design, riveted joints, torsion of shafts, column buckling and the impact loading of mechanical elements. Laboratories in tensile, shear and bending tests as well as the use of electrical strain gages. Prerequisite: C grade in MECH 211 4 credits (3 lecture hours, 2 laboratory hours), spring/fall semester These credits count towards the Math and/or Science (List B) requirements for graduation.
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1.00 Credits
Introduction to the transmission control and storage of pressurized fluid energy systems. Incompressible fluid power systems, circuit applications and diagnosis. 1 credit (2 lecture hours, 2 laboratory hours), five weeks, spring semester
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3.00 Credits
A study of incompressible power systems. Including topics in power transmission, controls, circuit design and efficiency, applications, as well as electrohydraulic control of discrete components and programmable systems. Prerequisites: MATH 103, CAD 184 and PHYS 107 4 credits (3 lecture hours, 3 laboratory hours), spring semester
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3.00 Credits
Instruction in the capabilities and limitations of a programmable computer controlled (CNC) four-axis machining center and its related tooling. Programming will be performed using G code preparatory functions on a Fanuc compatible controller using both manual data input (MDI) and CAM software. Topics will include coordinate systems, machine safety and machine/ part alignment, cutter technology and miscellaneous canned cycles. Prerequisite: MECH 101 or permission of instructor 2 credits (1 lecture hour, 3 laboratory hours), fall semester
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