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Course Criteria
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3.00 Credits
Study of the physical principles of solid state electronic devices, including photovoltaics. Corequisite: ENGR 315.
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1.00 Credits
Experiments in crystal and semiconductor physics, measurement of fundamental physical constants. Corequisite: ENGR 312.
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4.00 Credits
Study of stresses and strains, deformations and deflections of posts, shafts, beams, columns; combined stresses; elasticity. Computational and experimental laboratory required. Prerequisite: ENGR 222.
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4.00 Credits
Study of the science of engineering materials. Crystal structures, electron transport in solids, single-phase metals, multiphase materials, equilibria, microstructures and properties, thermal processing, and corrosion of metals. Laboratory work required. Prerequisite: ENGR 321, CHEM 143 or equivalent.
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3.00 Credits
Study of the engineering properties and applications of asphalt, concrete, plastics, steel, wood, and composites. Strength and serviceability considerations. Laboratory work required. Prerequisite: ENGR 321. Recommended: ENGR 341.
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2.00 Credits
Study of polymer, ceramic, and composite materials; material selection, joining and manufacturing processes. Laboratory work required. Prerequisites: ENGR 321, 322.
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3.00 Credits
Study of theory and application of modern instrumentation; design of experiments, validation of experimental data. Laboratory work required. Prerequisites: MATH 315, ENGR 228 or permission of instructor.
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3.00 Credits
Study of business, economic, and ethical aspects of engineering practice; financial planning in engineering decision making; tools for financial planning. Introduction to engineering organization and program management techniques. Prerequisite: Junior standing in engineering.
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4.00 Credits
Fluid statics and dynamics of fluid motion; conservation of mass, momentum, and energy in laminar and turbulent flow using control volume formulation. Introduction to Navier Stokes equations for fluid flow; inviscid flow; dimensional analysis and similitude; boundary layer flow; lift and drag forces; viscous flow in conduits; open channel flow; flow measurements; turbomachinery. Prerequisites: ENGR 222, PHYS 251, 252, MATH 283, 289, 312 or permission of instructor.
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4.00 Credits
Introduction to the nature of energy and study of energy transport conservation in closed and flowing systems; properties and states of solids, liquids, vapors, and gases; enthalpy; meaning and production of entropy and introduction to cyclic systems. Prerequisite: PHYS 253. MATH 312 strongly recommended.
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