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Course Criteria
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3.00 Credits
Prerequisite: ME 201 The study and application of the concepts of dynamics to particles, systems of particles, and rigid bodies. Scalar and vector analysis used. (Fall, Winter, Spring)
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1.00 Credits
Prerequisite: ME 202 Laboratory investigations in materials science and strength of materials. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: ME 142, ME 202, ME 204, Math 316 or Math 371 Introduces the use of numerical methods for solving engineering problems. Covers several specifi c techniques such as fi nding roots of an equation, solving linear algebraic systems, fi tting data points to a curve, performing numerical integration, and solving ordinary differential equations. Numerical techniques are implemented using MATLAB. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: Chem 105; FDMAT 112 Atomic and microstructure of engineering materials, including metals, ceramics, polymers, and composites. Factors infl uencing the farication, processing, and selection of materials in engineering analysis and design. Case studies of engineering material failures. Use of material selection software. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: ME 132A or ME 132B, ME 202 This course focuses on the practical aspects of mechanical design and teaches concepts such as the integration of engineering analysis and design, the strategic use of CAD in making design decisions, the effective use of vendor off-the-shelf mechanical components, and manufacturing process considerations in design. The concepts are taught in the context of small design projects where students design and build mechanical devices throughout the semester. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: Math 316 or Math 371, ME 204, ME 242, PH 220 This course provides an introduction to dynamic system modeling and analysis. Basic instrumentation and data acquisition techniques are also presented. Major topics covered in this course include lumped parameter models of dynamic systems, derivation of state equations, analytical and numerical solution of state equations, frequency response analysis, instrumentation, and data acquisition. Professional software is used in obtaining numerical solutions of state equations and in performing data acquistion. (Fall, Winter, Spring)
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4.00 Credits
Prerequisite: ME 204 Fundamentals of classical thermodynamics. Thermodynamic property relationships for ideal gasses, vapors, liquids and solids. First and second law analysis of open and closed systems. Energy and entropy concepts in power and refrigeration cycles. Laboratory experiences with thermodynamic devices. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: Math 214 or Math 215 Introduction to statistical methods for assuring quality in engineered products. Review of basic statistical concepts of central tendency and dispersion of data. Introduces statistical process control, design of experiments, statistical tolerance analysis, and concepts of six sigma quality. (Fall, Winter, Spring)
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3.00 Credits
Prerequisite: ME 204 Relative motion of links in mechanisms; velocities and accelerations of machine parts; rolling contact; cams; synthesis of mechanisms. Includes computer-aided engineering techniques. (As necessary)
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3.00 Credits
Prerequisite: Math 316 or Math 371, ME 204, ME 242, Ph 123 Introduction to fl uid mechanics and incompressible fl uid fl ow, fl uid statics, fl uid dynamics, control volume and differential analysis of fl uid fl ow, dimensional analysis and scale models, internal and external viscous fl ow, turbomachinery. Flow measurement lab included. (Fall, Winter, Spring)
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