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Course Criteria
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3.00 Credits
An introduction to structured programming in the MATLAB environment with application to engineering problems. Numerical methods will be presented in application to engineering problems. Roots of equations. Curve fitting. Application of linear algebraic equations and matrices to engineering problems. Numerical methods for linear systems, Gauss eliminations, LU and Cholesky Decompositions, Matrix inversion, and iterative Methods. A laboratory experience is included in the course. Prerequisite: MA 171.
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3.00 Credits
Fluid properties and fundamental principles governing fluid behavior. Fluid statics, basic equations in integral form and differential form, potential flow, dimensional analysis, and internal incompressible viscous flows. Prerequisites: MAE 285 or CPE 112 or CHE 197, MAE/CE 271, and MA 238.
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3.00 Credits
Fundamentals of instrumentation and techniques for measurement of mechanical phenomena such as temperature, flow, pressure, force, strain, displacement, and acceleration. Calibration, standards, computerized data acquisition, error analysis, signal conditioning, dynamic response, and experimental design. One credit hour laboratory is included. Prerequisite: EE 213.
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3.00 Credits
Basic laws of energy that apply in all branches of engineering and science. Properties of matter, state variables, reversible processes, first and second laws of thermodynamics with applications to closed and open systems. Availability of energy and irreversibility. Prerequisite: MA201, CH 121, CH 125, PH 112.
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3.00 Credits
Continuation of ME 341. Thermodynamic cycles, thermodynamic relations among properties, chemical reactions, and phase and chemical equilibrium. Prerequisite: MAE 341; Prerequisite with concurrence: MAE 285.
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3.00 - 4.00 Credits
Kinematics and dynamics of planar machinery. Principles of mechanisms, design of cams, fundamentals of gears and epicyclic gear trains, methods of determination of velocity and acceleration in mechanisms. Inertia forces in machines, balancing of rotating masses and reciprocating masses, and vibration analysis. Prerequisite: MAE 110, 272. 162
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3.00 - 4.00 Credits
Topics include: theory of stress and strain, Hooke's law, analysis of stresses and deformations in bodies loaded by axial, torsional, bending, and combined loads, and analysis of statically indeterminate systems. Laboratory includes: determination of selected properties of various engineering materials, experimental verification of theories presented, use of strain measuring devices, test procedures, instrumentation, and interpretation of results. Prerequisite: MAE 285 or CPE 112 or CHE 197, and MAE/CE 271. (Same as CE 370.)
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3.00 Credits
Analysis and design of lightweight aerospace structures including sandwich structures, stiffened panels, and tubing stress and deflection analysis. Design of members in tension, torsion and bending. Space structures. Prerequisites: MAE 110, 272, MAE/CE 370; Co-requisite: MAE 371.
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3.00 Credits
Engineering properties of materials, sources of information for properties of materials, cost considerations for material selection, manufacturing processes, casting, forming, machining, cost considerations for machining operations. One or more field trips included. Prerequisite: MAE/CE 370. (Same as ISE 378.)
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2.00 - 3.00 Credits
Numerical techniques associated with complex problems. Evaluation of functions, finding roots of equations, solution of simultaneous algebraic and differential equations. Use of computers. Prerequisites: MAE 285; Prerequisite with concurrence: MA 238.
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