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  • AME 542: HVAC System Design

    3.00 Credits
    University of Arizona

    Description: Analysis and design of air conditioning systems for commercial and industrial buildings, including equipment and component selection. Energy-efficient concepts will be emphasized. Graduate-level requirements include a comprehensive design project. Grading: Regular grades are awarded for this course: A B C D E. May be convened with: A ME 442. Usually offered: Fall.
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  • AME 544: Applied Thermodynamics

    3.00 Credits
    University of Arizona

    Description: This course is envisioned for interested seniors and graduate students (and interested working engineers) as a means to round out their understanding of the application of the sophisticated thermodynamic principles of availability and entropy generation minimization to systems of practical and commercial importance, including cryogenic refrigerators and liquifiers. Graduate-level requirements include material taught, such as ?onstructal theory and entropy generation minimization, that are generally too sophisticated to use as undergraduate material. Grading: Regular grades are awarded for this course: A B C D E. May be convened with: A ME 444. Usually offered: Fall.
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  • AME 545: Renewable Energy Systems

    3.00 Credits
    University of Arizona

    Description: Solar radiation intensity and location; basic concepts of solar thermal processes; collectors; applications for water heating, active and passive building heating and cooling, industrial processes. Wind energy fundamentals. Aerodynamic theory of propellers and windmills, optimal blade design and economics. Graduate-level requirements include an in-depth research paper. Grading: Regular grades are awarded for this course: A B C D E. Identical to: NEE 545. May be convened with: A ME 445. Usually offered: Spring.
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  • AME 546: Fuel Cell Fundamentals and Design

    3.00 Credits
    University of Arizona

    Description: This course is aimed at providing the next generation of multi-disciplinary engineers with a background in clean energy that is based on hydrogen fuel and fuel cell science and technologies. The lectures are designed to pique students interest in research and applying fuel cell power sources for various applications of electronic devices, aerospace and military missions, and distributed power generation. Graduate-level requirements include extra homework problems and projects. Grading: Regular grades are awarded for this course: A B C D E. May be convened with: A ME 446. Usually offered: Fall.
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  • AME 550: Advanced Dynamics

    3.00 Credits
    University of Arizona

    Description: Lagrange's equations, rigid body and multibody dynamics; Euler's equations, vibrations theory. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M.Eng Website (http://www.oneflexibledegree.com) for details. Prerequisite(s): A ME 250, knowledge of differential equations. Usually offered: Fall.
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  • AME 552: Planar Multibody Dynamics with Applications

    3.00 Credits
    University of Arizona

    Description: Kinematic and dynamic analysis of mechanical systems in planar motion, numerical methods and use of computer programs in analysis. Graduate-level requirements include an additional project and extra questions on exams. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M.Eng Website (http://www.oneflexibledegree.com) for details. May be convened with: A ME 452. Usually offered: Fall.
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  • AME 553: Computational Multibody Dynamics

    3.00 Credits
    University of Arizona

    Description: Computational methods in spatial multibody dynamics; Euler parameters; automatic generation and numerical methods in solving equations of motion; application in vehicle dynamics, spacecraft, and robotics. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M.Eng Website (http://www.oneflexibledegree.com) for details. Prerequisite(s): knowledge of kinematics, dynamics, and numerical methods. Usually offered: Spring.
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  • AME 558: Advanced Modern Control Theory of Mechanical Systems

    3.00 Credits
    University of Arizona

    Description: State space representation of linear systems; topics include controllability, observability, stability, full state feedback, reduced order feedback, pole placement, optimal regulators, optimal observers. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M.Eng Website (http://www.oneflexibledegree.com) for details. Prerequisite(s): A ME 455. Usually offered: Fall.
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  • AME 560: Advanced Vibration

    3.00 Credits
    University of Arizona

    Description: Analytical treatment of the vibration of continuous and distributed parameter systems such as strings, rods, and beams; finite-element and numerical methods in vibration and modal analysis; frequency domain analysis; nonlinear effects and stochastic methods. Grading: Regular grades are awarded for this course: A B C D E. Prerequisite(s): A ME 460 or similar introductory vibrations course; A ME 463 or similar finite element course desired; A ME 550. Usually offered: Fall.
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  • AME 561: Finite Element Methods

    3.00 Credits
    University of Arizona

    Description: Matrix methods for solving boundary value problems in structural mechanics and fluid mechanics, heat and mass transport, isoparametric elements, Galerkin methods, solution schemes, convergence criteria, condensation and diagonalization methods. Development of new finite elements for computer projects and presentations. Grading: Regular grades are awarded for this course: A B C D E. Prerequisite(s): A ME461A. Knowledge of heat transfer and advanced solid mechanics helpful. Concurrent registration, A ME 500A. Usually offered: Fall.
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