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Course Criteria
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3.00 Credits
Applied numerical analysis for linear and nonlinear engineering problems. Systems of linear equations, nonlinear equations, and eigen value problems. Approximate numerical integration and differentiation. Development of numerical methods for initial and boundary value problems of ordinary differential equations. Introduction to the numerical solution of partial differential equations. Prerequisites: MATH 431, ME 330, ME 330L. 3 credits.
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3.00 Credits
Design of thermal systems and subsystems, especially as they relate to current and new means of energy utilization and power generation; computer simulation and optimization of thermal systems based on performance and economic constraints. Prerequisites: EGG 307, ME 311, ME 314, ME 380, or consent of instructor. 3 credits.
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3.00 Credits
Fundamental engineering principles in several engineering areas to problems in the biological world. Discussion includes biomechanics of solids, biofluid and transport phenomena, biomaterials, cell and tissue engineering, medical imaging and electrophoresis. Prerequisites: BIOL 223, ME 314, ME 380. 3 credits.
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3.00 Credits
Analysis and design of air conditioning systems, load calculations, system selection, duct sizing, and controls. Relationships between internal and external environments. Development of economic, functional and energy conserving concepts in air conditioning design. Prerequisite: ME 311. 3 credits.
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3.00 Credits
Room air distribution. Fan and building air distribution. Mass transfer and humidity measurement. Direct contact heat and mass transfer extended surface heat exchangers. Refrigeration. Current energy conservation technologies, computer simulations of dynamic building energy demand. Prerequisite: ME 311. 3 credits.
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3.00 Credits
Introduction to feedback system concepts; mathematical modeling of mechanical, hydraulic, electromechanical and servo systems; feedback system characteristics and performance; stability; design and compensation of control systems. Prerequisites: EE 290, and ME 330. 3 credits.
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3.00 Credits
Control system identification. Controller design, experimentation, computer simulation, and analysis of position and speed control systems. Control system performance optimization. Corequisite: ME 421. 1 credit. College of Engineering 163
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3.00 Credits
Introduction to robotic system concepts; analysis of robot arm dynamics, speed and accuracy; end or arm tooling and gripper concepts; smart robot concepts; touch and vision systems; robot software concepts. Three hours lecture and three hours laboratory. Corequisite: ME 421. Prerequisites: ME 320, MATH 431. 3 credits.
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3.00 Credits
Survey of the principal processes used to cast, form, machine, and join material. Tolerances, statistical quality control, costs, operation sequencing, and design for productivity covered. Research paper on related topic required. Prerequisite: Senior standing in engineering or architecture. 3 credits.
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3.00 Credits
Study of the ways of organizing people and equipment so that production can be performed more efficiently. Includes production lines design, CIM, GT, FMS, production planning, inventory control and MRP, lean production, JIT, and agile manufacturing. Prerequisite: ME 301. 3 credits.
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