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Course Criteria
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3.00 Credits
Examines chemical, nuclear, and electrical propulsion concepts. Development of design and performance analysis methods. Flight performance of rocket powered vehicles. Prerequisite: MAE 3303 or MAE 3311.
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3.00 Credits
Thermodynamics as applied to thermo-mechanical systems such as power cycles, engines, turbines, refrigeration, and air-conditioning systems. Prerequisite: MAE 3311, MAE 3314.
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3.00 Credits
Application of engineering sciences to design of heating, venting, & air conditioning (HVAC) systems. Humidification and dehumidification, psychrometric charts, heat load, cooling load, degree-days, comfort zones, and air distribution systems. Prerequisite: MAE 3311 and MAE 3314.
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3.00 Credits
Manufacturing methods and operations. The interaction between design and manufacturing stressed in terms of drawing specifications versus process capability and tolerances, including standards applications and redesign for producibility. Prerequisite: MAE 3242 (or 3344).
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3.00 Credits
Concept of stress and strain; elementary dislocation theory. Deformation of single crystals; strengthening mechanisms like solid solution strengthening, and precipitation hardening. Fracture mechanics; microscopic aspects of fracture, fatigue, and creep of materials; design and processing of materials for improved mechanical properties. Prerequisite: C or better in each of the following: MAE 2312, and MAE 3324.
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3.00 Credits
Theory and practice of techniques for determining modes of failure and fracture of engineering materials. Prerequisite: C or better in each of the following: MAE 2312, and MAE 3324.
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3.00 Credits
Theory and applications of fracture mechanics. Stress analysis of cracks, crack-tip plasticity, fatigue crack growth, and stress corrosion cracking. Applicability to materials selection, structural design, failure analysis, and structural reliability. Prerequisite: MAE 3242.
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3.00 Credits
Analysis for the design and manufacture of basic mechanical elements, and their role in the design of machines. A brief review of relevant topics including stress/deflection, failure theories, and contact stress is initially conducted. It is then extended to the design of fundamental mechanical components including shafts, gears, springs, bearings, fasteners, and clutches/brakes. Prerequisite: MAE 3242 and MAE 3318 (or concurrent enrollment).
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3.00 Credits
A study of the principles of computer-aided engineering in mechanical and aerospace engineering. Applications in machanical, structural, and thermal systems. Prerequisite: MAE 3319 and MAE 3242.
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3.00 Credits
Overview of industrial robots. Study of principles of kinematics, dynamics, and control as applied to industrial robotic systems; robotic sensors and actuators; path planning; programming of industrial robot in the laboratory; survey of robotic applications in various modern and traditional fields; and guidelines to robot arm design and selection. Prerequisite: MAE 3318, or C or better in EE 4314
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