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Course Criteria
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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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3.00 Credits
(Prereq: ENCP A290 with a grade of C or better and ENCP A360 with a grade of C or better; Coreq: ENCP A354L, MATH A242) One- and two-dimensional steady and unsteady conduction; free and forced convection; boiling and condensation; heat exchangers.
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1.00 Credits
(Coreq: ENCP A354) This laboratory course is associated with the experimental analysis of linear conduction; radial conduction; conduction of fluid, fins, free and forced convection; and radiation. This course is designed to be taken with ENCP A354.
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3.00 Credits
(Prerequisites: Grade of C or better in MATH 241; grade of C or better in ENCP 200) Mechanical engineering applications of fluid statics and dynamics. Conservation of mass, momentum, and energy. Similitude and dimensional analysis, open channel flow, lift, and drag. Introduction to turbulent flow.
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3.00 Credits
(Prereq: STAT A509 with a grade of C or better, ENCP A 260 with a grade C or better, PHYS A211 with a grade C or better, and PHYS A212 with a grade C or better). Principles of measurement, analysis of data, experimental planning. Correlations of experimental data, experimental variance, and uncertainty analysis.
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1.00 Credits
(Coreq: ENCP A361) This laboratory course is associated with operating principles of common instrumentation of hardness, pressure, temperature, stress, strain, and electrical measurements; students will also apply statistical skills and interpret the results. This course is designed to be taken with ENCP A361.
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3.00 Credits
(Prereq: CSCI with a grade of C or better, ELCT A221 with a grade of C or better, and ENCP A260 with a grade of C or better) Introduction to the principles of integrating mechanical, electrical and computer engineering disciplines within a unified framework towards designing mechatronic systems; Fundamental overview of mechatronics (sensors, signals, actuators, microprocessors and models of mechatronic systems); Experimental exercises using microcontrollers.
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3.00 Credits
(Prereq: Grade of C or better in ENCP A260) Structures and properties of engineering metals, ceramics, and polymeters; atomic bonding, crystalline structures and microstructures; mechanical behavior and deformation of mechanisms; processes for controlling structures and properties; corrosion.
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3.00 Credits
Pre-req: ENCP A371.) Basic principles of metal processing; applied mechanics of metal cutting and forming; cost analysis of manufacturing operations.
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