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Course Criteria
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3.00 Credits
(Prereq: Grade of C or better in ENCP A200; Coreq: MATH A241). Basic concepts of stress and strain; Stress and Strain transformation concepts. Basic developments for stresses, tension, torsion, axial load, and pressure. Deformations of elastic relationships between stress and strain.
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3.00 Credits
(Prereq: Grade of C or better in MATH A142) Definitions, work, heat and energy. First law analyses of systems and control volumes. Second law analysis.
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1.00 Credits
A brief introduction, using guest speakers and case studies, to show how engineering is used in industry. This seminar course will be taken twice by students in the program. Mechanical engineering majors in their first spring semester will take this course and then will take it again in the spring semester before completing the senior capstone. This will lead to upperclassmen taking this course at the same time as students early in the program. Each spring, both groups of students will take this class concurrently in the same room and be exposed to the same speakers, workshops, and information sessions. This approach provides an insight into internships and curriculum and creates a bridge between the cohorts allowing for mentorship and interaction between the two student groups.
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3.00 Credits
(Prereq: MATH A141 with a grade of C or better; Coreq: MATH A142) Introduction and application of linear algebra and numerical methods of solving physical and engineering problems. Techniques include iterative solution techniques, methods of solving systems of equations, and numerical integration and differentiation.
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3.00 Credits
(Prereq:Grade of C or better in ENCP A200) Kinematics of particles and rigid bodies. kinetics of particles, emphasis on Newton's second alw, energy and momentum methods for the solution of problems. Applications of plane motion of rigid bodies.
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3.00 Credits
(Prereq: Grade of C or better in MATH A242, grade of C or better in ELCT A221). An introduction to closed-loop control systems: development concepts, including transfer function, feedback, frequency response, and system stability by examples taken from engineering practice: control system design methods. Also an introduction to programmable logic controllers (PLCs).
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3.00 Credits
(Prerequisite: Grade of C or better in ENCP 260) Design against static failure and fatigue failure of structural members and machine parts: design and selection of components including fasteners, welds, shafts, springs, gears, bearings, and chain drives.
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3.00 Credits
(Prereq: ENCP A200 and MATH A242 with a grade of C or better in each). This course is an analysis of forced and damped one-degree-of-freedome systems. The course includes rotation unbalance and vibration isolation, and an introduction to two-degree-of-freedom systems.
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3.00 Credits
(Prereq: ENCP A310 with a grade of C or better) The application of vector and graphical analysis for the determination of positions, velocities and accelerations of planar linkages used in modern machinery.
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3.00 Credits
(Prerequisite: Grade of C or better in STAT A509) Introduction to quality management philosophies, tools, and approaches. Six Sigma philosophy, roadmap, tools, and techniques of planning and executing quality improvement programs and the LEAN continuous improvement approach that focuses on reducing waste. Application of Design for Six Sigma approach to design or improve products and processes.
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