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Course Criteria
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3.00 Credits
The application of specialized topics in mechanics of materials to the design and analysis of machine elements. Topics include combined stress, contact stress, stress concentration, fatigue, deflection and theories of failure. Stress principles are applied to springs, bolts, joints and general machine elements. Prerequisite: ME 104, ME 125, and ME 215.
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2.00 Credits
Fundamentals and principles of mechanical vibration. Mathematical formulation of the equations of motion for single and multidegree of freedom systems. Analysis of natural frequency, damped natural frequency, free and forced vibration of mechanical systems. Prerequisites: ME 209 with a grade of C or better, ME 125, ME 215, and MATH 234.
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0.50 Credits
Experimental modal analysis of mechanical systems. Estimation of natural frequencies, mode shapes, and structural damping for various structures. Experimental determination of frequency response functions. Corequisite: ME 364.
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3.00 Credits
A study of the first and second laws of thermodynamics. Extensive use of these laws is made in analyzing processes and cycles. Additional topics covered are ideal gases, nonreactive gas and gas-vapor mixtures as well as other simple compressible substances. Prerequisites: MATH 132 and PHYS 141.
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3.00 Credits
The basic conservation equations in control volume form are developed and used in engineering applications of fluid motion. Topics include fluid statics and the dynamics of both compressible and incompressible flows. Prerequisite: ME 209 with a grade of C or better.
Prerequisite:
ME-209
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1.00 Credits
Experimental studies designed to reinforce theory presented in the areas of heat transfer, thermodynamics and fluid mechanics. Experiments deal with topics such as flow and heat transfer mechanisms, refrigeration and internal combustion engines. Prerequisites: ME 333, ME 370, and ME 373; corequisite: ME 376.
Prerequisite:
ME-270 AND ME-333 AND ME-373
Corequisite:
ME-376
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3.00 Credits
The fundamentals of heat transfer by conduction, radiation and forced and free convection are developed and applied to engineering problems. Prerequisite: ME 370.
Prerequisite:
ME-270
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2.00 Credits
Finite element methods for analysis of steady-state and transient problems in solid, structural, fluid mechanics, and heat transfer. Presents finite element methods and solution procedures for linear problems. Modeling of problems and interpretation of numerical results. Prerequisites: ME 104, ME 125, ME 215, MATH 234, MATH 253, and ME 373.
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2.00 Credits
Fundamentals of system modeling for various mechanical, electrical, electromechanical, and hydraulic systems. Stability analysis in time and frequency domains. Industrial controller design (P, PI, PD, PID), closedloop feedback construction and implementation. System identification and characterization using frequency and time domain responses. Time delay analysis and its impact on stability margins of feedback systems. Prerequisites: ME 333 and MATH 234.
Prerequisite:
ME-333 AND MATH-234
Corequisite:
ME-444L
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0.50 Credits
A laboratory experience in the process of modeling and identification, controller design, and closed-loop implementation for various mechanical, electrical and electromechanical systems. Corequisite: ME 444.
Corequisite:
ME-444
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