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ME 370: Mechanical Systems Design

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 172, ME 202, ME 204, ME 250 Analysis, modeling and design of mechanical components and sytems, materials, processes and structural analysis, static and dynamic failure theories; analysis and design of machine elements. Use of computer-aided design tools emphasized. (Fall, Winter, Spring)

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ME 380: ME Design II:Product Design

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 132A or ME 132B, ME 242, ME 330 This course introduces a structured design methodology for product development. The methodology includes such topics as product specifi cation, concept generation, concept selection, and prototying. Other topics that are associated with the design process, such as economic analysis and intellectual property, are also presented. (Fall, Winter, Spring)

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ME 398: Internship

1.00 Credits

Brigham Young University-Idaho

Prerequisite: Consent of instructor. Industrial work experience. (Fall, Winter, Spring)

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ME 422: Thermodynamics II

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 322 Application of principles of thermodynamics to air standard cycles (Otto, Diesel, Brayton, Sterling, and Ericsson), steam power cycles (Rankine), and refrigeration and heat pump cycles. Property calculations for gas mixtures. Processes involving air water mixtures, psychrometric charts, etc., with applications to air-conditioning and drying processes. Introduction to Thermodynamic calculations for combustion chemical reactions. Laboratory experience analyzing thermodynamic systems. (As needed)

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ME 423: Heat Transfer

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 322, ME 360 Fundamentals of conduction, convection, and radiant modes of heat transfer; fundamental equations for steady and unsteady conduction; heat exchanger analysis and design; design of systems involving multi-mode heat transfer. (Fall, Winter, Spring)

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ME 425: Fluid Mechanics II

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 360, ME 322 This course is a follow-on course to the introductory fl uid mechanics course. Some topics including integral momentum, modeling and similitude, and analysis of piping systems from the introductory course will be explored in greater depth and detail. New topics covered may include potential fl ow, compressible fl ow, computational fl uid dynamics, and turbulence. This course will analyze more involved fl uid systems. (As needed)

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ME 438: CAE Modeling and Digital Simulation

3.00 Credits

Brigham Young University-Idaho

Prerequisite: Senior standing or consent of Instructor. A study of advanced Computer-Aided Design and engineering applications in design, modeling, simulation and customization. The use of CAD and engineering software tools is stressed. Topics include engineering design process, project management, advanced solids modeling techniques, kinematic analysis, digital simulation techniques, and customization techniques. (As needed)

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ME 445: Mechanics of Composite Materials

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 202, ME 242, ME 250 An introduction to laminated composite materials and structures. An investigation of the micromechanical and macromechanical behavior of anisotropic plies. Development of classical lamination theory for predicting the mechanical behavior of laminated composite plates. Laboratory work involving fabrication and testing of composite laminates. (As needed)

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ME 460: Fundamentals of Finite Element Analysis

3.00 Credits

Brigham Young University-Idaho

Prerequisite: Math 316, ME 172, ME 202, ME 242 This course provides an introduction to the fi nite element method. Characteristics and limitations of several basic fi nite elements are evaluated. The fi nite element method is applied to both structural and thermal problems. Applications of the fi nite element method are carried out with commercial software. (As needed)

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ME 470: Mechatronics

3.00 Credits

Brigham Young University-Idaho

Prerequisite: ME 315 This course provides an introduction to systems that contain both electrical and mechanical elements. Methods for modeling and controlling the behavior of such systems are discussed. Several computer-based methods and tools are presented, including the use of programmable logic controllers and data acquisition software. (As needed)

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