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Course Criteria
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3.00 Credits
Description: Orthotropic stress-strain relations, hygrothermal effects, laminate analysis, manufacturing residual stresses, stress analysis, finite element analysis, composite structure failure, designing, joining, and repair. Prerequisites: Matrix algebra and undergraduate solid mechanics. Undergraduate students must obtain permission of the department chair. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites:
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3.00 Credits
Description: Fundamentals of thermal design issues associated with electronic equipment; including free and forced convection, liquid immersion, heat pipes, thermoelectrics, reliability, cold plates and numerical solution methods. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: This course provides an introduction to the modeling and interpretation of transport in living tissue and cells. Topics include momentum, heat and mass transfer in arteries, water and solute exchange in the microcirculation, mass transfer across cell membrane, renal physiology and gas exchange in the lung. Prerequisite: Undergraduate fluid mechanics or transport courses, or instructor's consent. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: Asymptotic approximations to problems of engineering interest; problems in which functions are defined by polynomial and transcendental equations, definite integrals, ordinary, and partial differential equations. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ME 7000 Minimum Grade of C
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3.00 Credits
Description: Nonlinear applications of the finite element method. Emphasis on formulation, solution algorithms, and convergence. Hands-on experience using programs for solution of problems. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ME 7040 Minimum Grade of C
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3.00 Credits
Description: Fundamentals of fluid mechanics, conservation of mass, momentum, and energy; incompressible inviscid and viscous flows; Navier-Stokes equations, laminar and turbulent boundary layers, high speed flows. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites:
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3.00 Credits
Description: Theory of steady and unsteady heat conduction, convection and radiation boundary conditions, analytical and numerical methods of solution, thermal component design. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ME 7000 Minimum Grade of C
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3.00 Credits
Description: Fundamentals of convection; conservation of mass, momentum and energy in integral and differential forms; laminar and turbulent, forced, and natural convection in internal and external flows; introduction to mass transfer. Prerequisite or Corequisite ME 7000. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: ME 7000
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3.00 Credits
Description: Fundamentals of radiant heat transfer; diffuse and non-diffuse radiation; modern techniques for determining configuration factors. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: Thermoelasticity theory is used in the design and analysis of structures and structural components which are subjected to temperatures which vary both in time and with position. Examples include aircraft, spacecraft, missiles, turbines and nuclear reactors. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: ME 7000
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