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Course Criteria
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0.00 - 3.00 Credits
Offered on Demand. Lect. 3, Lab 0, 3 credits. Topics of special interest to the faculty and students. Prerequisite: Senior Standing.
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3.00 Credits
Cr. 3. Development of rate of strain relationships for viscous compressible and incompressible fluid flow. General equations of motion, laminar and turbulent flow, boundary layer theory. Numerical methods in fluid mechanics. Prerequisite: MENG 0313 and MENG 0414; Corequisite: MENG 0523.
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0.00 - 3.00 Credits
Offered on Demand. Lect. 3, Lab 0, 3 credits. Mechanical principles of the turbomachine theory; the design of centrifugal pumps and compressors; one-dimensional flow; three dimensional effect; similarity considerations; air-foil and cascade theory; effects of finite span; design of axial flow machines, compressibility effects; turbines for hydropower, impulse, reaction, and Kaplan machines; surges and surge suppressors; positive displacement machinery. Prerequisite: MENG 0313.
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3.00 Credits
Cr. 3. Kinematics of vibrations, single and multiple degrees of freedom, natural frequency, forced vibrations, effect of dry and viscous damping, torsional vibrations of crankshafts and geared systems, suppression and elimination of vibrations; vibration of continuous beams, rods and strings. Prerequisites: MENG 0315, MATH 0461.
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3.00 Credits
Cr. 3. Foundations of dynamics. Hamilton's principle, LaGrange'sequations, Euler's equations, dynamics of gyroscopes, dynamics of particles and rigid bodies, nonlinear vibrations. Prerequisites: MENG 0315 and MATH 0461.
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3.00 Credits
Cr. 3. Strain measuring devices and techniques; static and dynamic strain and displacement; brittle coating photoelasticity for two and three dimensional stress analysis. Electronic circuits analysis applied to the measurements, report writing. Prerequisites: MENG 0416 and MATH 0461.
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0.00 - 3.00 Credits
Offered on Demand. Lect. 3, Lab 0, 3 credits. Kinematics and deformation of a continuum. Stress tensors and strain tensors, balance principles for mass, energy, and momentum, constitutive equations. Application of the theory to solid and fluid media. Prerequisites: MENG 0311, MENG 0313, MENG 0416.
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0.00 - 3.00 Credits
Offered on Demand. Lect. 3, Lab 0, 3 credits. Study of oblique shock theory; expansion theory and methods of characteristics, equations of motion and velocity potential form will be used as a basis for the study of small disturbance propagation, development of differential equations of second order which are then solved using the methods of characteristics, design of two-dimensional flow passages and shock interactions with sold boundaries, pressure boundaries and shocks. Prerequisite: MENG 0313.
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0.00 - 3.00 Credits
Offered on Demand. Lect. 3, Lab 0, 3 credits. Basic principles and applications of fracture mechanics by integrating aspects of materials science and solid mechanics. Emphasis is focused on linear elastic and nonlinear elastic-plastic fracture mechanics theories; practical knowledge of fracture toughness evaluation of metals, polymer and ceramic composites; fatigue crack propagation. Prerequisite: MENG 0416.
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3.00 Credits
Offered on Demand. Lect. 2, Lab 3, 3 credits. Introduction to composite materials; fibers, matrix and interface; mechanical and chemical aspects; design, chemical synthesis, manufacturing and processing methods; mechanical testing methods; understanding of failure mechanisms based on static, fatigue, impact and other properties; microstructural considerations; nondestructive evaluation (NDE) including ultrasonics, acoustic and vibration techniques. Prerequisite: MENG 0318
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