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Course Criteria
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3.00 Credits
Investigation and analysis of internal and external combustion engines with respect to automotive applications. Consideration of fuels, carburetion, combustion, detonation, design factors, exhaust emissions and alternative power plants.
Prerequisite:
[[ME-322]] or instructor permission.
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1.00 Credits
Experiments that complement vibration theories in ME 332, including spring and damper elements, underdamped vibration, torsional pendulum, resonance, transient and steady-state behaviors, base excitation, rotating unbalance, impulse response, and modal testing. Click here for course fee.
Prerequisite:
[[ME-234]], [[MTH-211]]
Corequisite:
[[ME-332]] concurrent or before
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3.00 Credits
An introductory course in mechanical vibration dealing with free and forced vibration of single and multi-degrees of freedom for linear and nonlinear systems.
Prerequisite:
[[ME-234]], [[MTH-211]]
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3.00 Credits
The first course of a two-course sequence in design of machine elements dealing with theories of deformation and failure, strength and endurance limit, fluctuating stresses, and design under axial, bending, torsional, and combined stresses. A study of column buckling, fasteners, and gears.
Prerequisite:
[[ME-232]]
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4.00 Credits
Introduction to finite element method for static and dynamic modeling and analysis of engineering systems. Finite element formulation and computer modeling techniques for stress, plane strain, beams, axisymmetric solids, heat conduction, and fluid flow problems. Solution of finite element equation and post processing of results for further use in the design problem. Click here for course fee.
Prerequisite:
[[ME-232]]
Corequisite:
[[MTH-211]] concurrent or before
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3.00 Credits
This course is an introduction to continuum mechanics, variational methods, including vectors and tensors, state of stress and compatibility equation, plain stress and strain. Energy Principles and virtual work will be discussed.
Prerequisite:
[[ME-232]] or instructor permission.
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3.00 Credits
This course explores the principles of MEMS by understanding materials properties, micro-machining, sensor and actuator principles. The student will learn that MEMS are integrated micro-devices combining mechanical and electrical systems, which convert physical properties to electrical signals and, consequently, detection. This course provides the theoretical and exercises the hands-on experience by fabricating a micro-pressure sensor. Click here for course fees.
Prerequisite:
Instructor permission.
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3.00 Credits
An advanced course in machine design topics that expands upon the concepts of Machine Design ([[ME-333]]). This course goes into more detail of the basic machine fundamentals introduced previously such as levers, belts, pulleys, gears, cams and power screws. Emphasis is also placed on 3D printing and the future of additive manufacturing.
Prerequisite:
[[ME-333]] or instructor permission.
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3.00 Credits
Introduction of fundamentals of HVAC design and construction. Study of the psychometric process and fundamental calculations and layout of HVAC systems. Calculations of heat loss and heat gain in commercial and residential structures.
Prerequisite:
[[ME-322]] or instructor permission.
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3.00 Credits
This course introduces advanced materials for engineers, emphasizing the fundamentals of manufacturing/structure/property/function relationships and applications. Topics include materials selection for machine design components in micro- and nano-scales, biomaterials, nano-composites, and optimized materials for nano-sensors and actuator systems.
Prerequisite:
[[EGR-200]] or instructor permission.
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