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Course Criteria
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3.00 Credits
Introduction to internal combustion engine systems and mechanical design. Consideration of factors affecting engine design using principles of engineering science. Analysis of common engine systems for reciprocating and continuous flow internal combustion engines. Prerequisites & Corequisites: Prerequisites: MATH 2720, ME 2580, ME 2320. Notes: This course meets for 2 lecture hours and 3 lab hours per week. Credits: 3 hours
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3.00 Credits
Steady state and transient conduction, radiation functions, radiation networks, natural and forced convection, design of heat exchangers, and computer applications. Prerequisites & Corequisites: Prerequisites: ME 2320, (ME 3560 or AAE 3710). Credits: 3 hours
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3.00 Credits
Advanced topics including gas-vapor mixtures, combustion, and compressible flow. Prerequisites & Corequisites: Prerequisites: ME 2320 or CHEG 3200; ME 3560 or CHEG 3110. (ME 3560 or CHEG 3110 may be taken concurrently). Mechanical Engineering or Chemical Engineering majors only. Credits: 3 hours
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3.00 Credits
Theory of the conditioning of air, applications to the design of systems to control temperature, humidity, distribution, and ventilation. Computer simulation of buildings and systems. Prerequisites & Corequisites: Prerequisites: ME 4310 or CHEG 3120; ME 4320. Mechanical Engineering or Chemical Engineering majors only. Credits: 3 hours
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3.00 Credits
Application of energy concepts to thermal fluid design problems. Open ended design projects in incompressible and compressible fluid flows, thermodynamics, heat transfer, power generation, alternate energy systems including computer simulations. Experimentation and theoretical analysis verification with data analysis and report preparation. Prerequisites & Corequisites: Prerequisites: ME 3350 or (CHEG 2810 and IME 2610); (ME 4310 or CHEG 3120). Mechanical Engineering or Chemical Engineering majors only. Notes: This course meets for 2 lecture hours and 3 lab hours per week. Credits: 3 hours
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3.00 Credits
The application of mechanical engineering concepts to the mechanical synthesis process. Computer-aided design, computer modeling, and optimization applied to the synthesis of a system. Prerequisites & Corequisites: Prerequisites: ME 3650. Notes: This course meets for 2 lecture hours and 3 lab hours per week. Credits: 3 hours
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3.00 Credits
Subsonic aerodynamics for engineers. The study of incompressible and compressible flow around bluff bodies. Computer applications to the solution of aerodynamic problems. Prerequisites & Corequisites: Prerequisite: ME 3560. Mechanical Engineering or Aeronautical Engineering majors only. Credits: 3 hours
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3.00 Credits
Principles and methods of mechanical testing, stress and strain analysis under monotonic and cyclic loading, fatigue behavior and fracture involving life prediction and prevention of failure. Experimentation and theory verification, including planning, testing, and data analysis with report preparation. Prerequisites & Corequisites: Prerequisites: ME 2500 or AAE 2500, ME 2570, ME 3350. Notes: This course meets for 2 lecture hours and 3 lab hours per week. Credits: 3 hours
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3.00 Credits
Kinematic and dynamic analyses of machine, mechanisms, and rotating systems. Topics include open and closed loop kinematic analyses, Newton's law for rigid body motion, inertia, work and energy methods, flywheels static and dynamic balancing, Lagrange's equations of motion, and introductory vibration analysis. Prerequisites & Corequisites: Prerequisite: ME 3580. Credits: 3 hours
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3.00 Credits
Design of ground vehicle suspension and steering systems. Vehicle ride, handling and safety systems. Passive and active suspension control. Prerequisites & Corequisites: Prerequisites: ME 3580, ME 3600, ME 3650. Credits: 3 hours
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