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MECHANICAL ENGINEERING (ME)

Professor William H. Sutton, Department Head
Office: 290 Hardaway Hall

ME 215 Thermodynamics I. (3-0) 3 hours.
Prerequisite: MATH 126.

Properties of matter; processes in fluids; zeroth; first and second laws; irreversibility.

ME 233 3D AutoCAD for Engineers (also DR 233). (2-0) 3 hours.
Prerequisite: DR 125 or DR 133.

Communicating graphically with solid models. Use of AutoCAD software to create 3D wireframe, surface, and solid models. Models may be then dimensioned, sectioned, or rendered.

ME 283 Modern Manufacturing Laboratory. (0-4) 1 hour.
Corequisite: ME 383.

Operational experience with manual and computer-controlled machining operations. Specific components include blueprint reading, use of measurement instruments, manual lathe operations, manual mill and drill operations, computer numerical control lathe, and coordinate measuring machine.

ME 305 Thermodynamics II. (3-0) 3 hours.
Prerequisite: ME 215 and Math 227.

Thermodynamic cycle analysis; Maxwell relations and development of thermodynamic properties; and thermodynamics of non-reacting and reacting mixtures and chemical equilibrium.

ME 308 Propulsion Systems. (3-0) 3 hours.
Prerequisite: ME 305.

Basic propulsion dynamics, thermodynamics of fluid flow, combustion kinetics, air-breathing engines, rockets, design criteria, performance, and advanced propulsion systems.

ME 309 Heat Transfer. (3-0) 3 hours.
Prerequisite: ME 215 and MATH 238.

Steady and unsteady conduction, convection, and radiation heat transfer.

ME 313 Theory and Design of Compressible Flow Systems. (3-0) 3 hours.
Prerequisites: ME 215 and AEM 311.

Fundamentals of one-dimensional compressible flow including nozzles, friction and heating effects, shock waves, and expansion waves. Application of the basic theory in a design project.

ME 349 Engineering Analysis. (3-0) 3 hours.
Prerequisites: GES 132 (or GES 126) and MATH 238.

Elements of statistics, matrix algebra, numerical analysis, and partial differential equations applied to engineering problems; includes extensive computer applications.

ME 350 Static Machine Components. (3-0) 3 hours.
Prerequisites: AEM 250, AEM 251, and DR 133 or DR 125.

The analysis of stresses of machine elements and the topics of fatigue strength, wear, and failure criteria. Also includes the design of fasteners covering both bolted and welded joints.

ME 360 Control and Instrumentation Components. (2-3) 3 hours.
Prerequisites: ECE 320 (or ECE 225) and AEM 250.

Introduction to selection and use of electrical, pneumatic, and other components of mechanical system instrumentation and control. Specific components include modern electrical measurement devices, signal conditioning, force and torque measurement, proximity sensors, AC and DC motors, etc. Writing proficiency is required for a passing grade in this course.

ME 372 Dynamic Systems (also AEM 372). (3-0) 3 hours.
Prerequisites: MATH 238, AEM 264, ECE 320 (or ECE 225), and ME 349.
Corequisite: ME 349.

An introduction to the modeling, analysis, and control of dynamic systems. The course takes the student from initial modeling through analysis of the system response and finally into the control of the system. Specific systems include mechanical devices, electrical circuits, and electromechanical systems.

ME 377 Noise Control. (3-0) 3 hours.
Prerequisites: MATH 238, PH 106, and junior or senior standing in the College of Engineering.

Physical properties of noise; hearing and noise criteria measurement techniques; and noise-control fundamentals applied to practical problems.

ME 383 Modern Manufacturing Practices. (2-0) 2 hours.
Prerequisite: AEM 250, DR 133, and MTE 271.
Corequisite: ME 283.

A survey of classical and modern manufacturing processes. Emphasis is on both fundamentals and applications of various manufacturing processes. Specific components include geometric and service attributes of manufactured products, metal casting processes, forming processes, machining processes, and joining processes.

ME 406 Thermal Power Systems. (3-0) 3 hours.
Prerequisite: ME 305.

Study of thermal systems emphasizing large power generation systems. Topics include Rankine and gas turbine cycles, fossil fuels combustion, boiler characteristics, cogeneration, combined cycle plants, environmental effects of power generation, and alternative energy concepts.

ME 407 Heating, Ventilating, and Air-Conditioning. (3-0) 3 hours.
Prerequisite: ME 309.

Fundamentals and practice associated with heating, ventilating, and air conditioning; study of heat and moisture flow in structures, energy consumption, human comfort and health; and design of practical systems.

ME 409 Numerical Heat Transfer and Fluid Flow. (3-0) 3 hours.
Prerequisites: AEM 311, ME 309, and ME 349; or CHE 253 and CHE 306.

Theory and practice of computational heat transfer; finite volume method for simulating fluid flow and heat transfer; computer graphics as a means of interpreting results of computation; and design applications of numerical heat transfer.

ME 411 Finite-Element Analysis in Heat Transfer. (3-0) 3 hours.
Prerequisites: ME 309, AEM 311, and ME 349; or MTE 353.

The course focuses on the utilization of existing commercially available finite-element computer codes for analysis of conduction and convective heat transfer processes. Computer codes currently available on the College of Engineering network are used.

ME 415 Energy Systems Design. (2-0) 2 hours.
Prerequisites: AEM 311, ME 305, and ME 309.

Techniques of analysis and design of energy systems, including piping networks, heat exchangers, and prime movers. Emphasis is on modeling and computational solutions.

ME 416 Energy Conservation and Management. (3-0) 3 hours.
Prerequisites: ME 309; ME 305; and ECE 320 or ECE 225.

Analysis of energy systems, including fossil fuels, steam, cogeneration, waste heat recovery, heating, ventilation, air-conditioning, control, and energy-management systems. Topics include conservation in electrical load, lighting, building envelope, and insulation; alternative energy sources; economic analysis; energy auditing; and fuel sources and supplies.

ME 417 Heating, Ventilating, and Air-Conditioning System Design. (2-3) 3 hours.
Prerequisite: ME 407 or ME 416.

Design of conventional and unconventional environmental systems: air-conditioning, heating, refrigeration, control systems, and thermal storage.

ME 418 Combustion Engines. (2-3) 3 hours.
Prerequisite: ME 305.

Theory, design, and performance of combustion engines; fuels, oxidants, and propellants; and combustion, dissociation, ionization, and engine emissions.

ME 441 Introduction to Biomedical Engineering. (3-0) 3 hours.
Prerequisites: MATH 238, PH 106, and AEM 201.

Introduction to the relationship between engineering and medicine. Modeling musculoskeletal and cardiovascular systems. Review of medical devices such as non-invasive imaging devices, biopotential electrodes and amplifiers, and assistive technology.

ME 450 Dynamic Machine Components. (3-0) 3 hours.
Prerequisites: AEM 264 and ME 350.

This course covers the selection and application of machine elements in dynamic systems. Specific components covered include transmission elements (gears and pulleys), mechanisms (linkages and cams), shafting, bearing systems, and prime movers.

ME 460 Thermal Systems Instrumentation. (2-3) 3 hours.
Prerequisite: ME 360, AEM 311, and ME 309.

Selection and use of pressure, temperature, fluid flow, and heat transfer instrumentation. Hands-on experiences with fluid flow, heat transfer, refrigeration, and heat engine equipment. Statistical design of experiments. Writing proficiency is required for a passing grade in this course.

ME 465 Introduction to Automated Manufacturing Systems. (2-3) 3 hours.
Prerequisite: ME 372.

Fundamental concepts of design, analysis, and simulation associated with industrial robotic systems. Introduction to and application of interactive computer analysis and computer graphics techniques. Topics include robot kinematics and dynamics, the inverse kinematics problem, interactive computer graphics and numerical integration techniques, and robot motion planning and trajectory specification.

ME 470 Mechanical Vibrations (also AEM 470). (3-0) 3 hours.
Prerequisites: ME 372 and AEM 250.

Free and forced vibrations, both undamped and damped; and systems with many degrees of freedom formulated and analyzed by matrix methods. Experimental techniques of vibration measurement are introduced.

ME 471 Fundamentals of Acoustics. (3-0) 3 hours.
Prerequisites: MATH 238, PH 106, and either ECE 320 or ECE 225.

Fundamental physical principles underlying wave propagation and resonance in mechanical systems. Introduces applications and provides experience in acoustic and audio measurements and the associated instrumentation.

ME 475 Control Systems Analysis. (3-0) 3 hours.
Prerequisites: ME 349 and ME 372.

Classical and modern feedback-control system analysis; and block diagrams, state variables, stability, root locus, and computerized analysis. Includes an introduction to modern control techniques.

ME 476 Machine Servo Systems. (3-0) 3 hours.
Prerequisite: ME 372 or permission of the instructor.
Corequisite: ME 475 or equivalent.

Hardware and software of machine servo systems with emphasis on the selection of components and integration into working systems. Hands-on experience with servo actuator systems in the laboratories.

ME 484 Introduction to the Finite-Element Method. (3-0) 3 hours.
Prerequisite: ME 350, CE 331, AEM 341, or graduate student standing.

Use of a commercial finite-element analysis program to perform linear static analyses in the presence of applied loads and thermal conditions. Emphasis is on applications using finite-element analysis programs as engineering tools.

ME 485 Introduction to Computer-Aided Design (also AEM 485). (3-0) 3 hours.
Prerequisites: GES 132, ME 349, ME 372, and AEM 250.

Elements of computer-aided design including finite-element stress analysis, dynamic system simulation, and numerical optimization. Interactive computer programs are used to design mechanical systems.

ME 489 Mechanical Engineering Design I. (2-3) 3 hours.
Prerequisites: Senior standing in the College of Engineering, ME 309, ME 305, and ME 350.

Introduction to concepts and techniques of engineering design, with supporting mathematical material. Guest lecturers present professional aspects of engineering. The Capstone Design Project is begun and carried on through ME 490 (ME 489 and ME 490 are taken in consecutive semesters).

ME 490 Mechanical Engineering Design II. (0-6) 3 hours.
Prerequisite: ME 489, AEM 311, and ME 309.

In this semester-long internship experience, three-student teams serve as consultants to an industrial client. Emphasis is on conducting a professional design study and preparing written and oral presentations of the project.

ME 491 Special Problems (Area). Variable hours.

This is a special topics lecture class or an assigned problem class. Credit is based on the amount of work undertaken.

ME 497 Mechanical Engineering Project. (0-9) 1 to 3 hours.

An individual analytical, experimental, or design project. Research on an assigned problem culminates in a required report.

Advanced Undergraduate/Entry-level Graduate Courses

ME 500 Intermediate Fluid Mechanics (also AEM 500) (3-0) 3 hours.
Prerequisites: MATH 238, ME 215, and AEM 311.

Development and use of the integral and differential forms of the equations of continuity, momentum, and energy with ideal fluids and compressible fluids. Introduction to several advanced topics in fluid mechanics, including potential flow, boundary layer flow, and compressible flow.

ME 501 Mechanical Engineering Analysis I. (3-0) 3 hours.
Prerequisites: ME 349, ME 372, and ME 309.

Analysis of mechanical engineering systems, including the presentation and application of advanced analytical techniques for continuous and discrete dynamic systems.

ME 502 Transport Phenomena. (3-0) 3 hours.
Prerequisites: ME 215 and AEM 311.

Steady and transient mass, energy, and momentum transport in ideal and real substances.

ME 509 Intermediate Heat Transfer. (3-0) 3 hours.
Prerequisites: ME 309 and AEM 311.

Intermediate treatment of conduction, convection, and radiation heat transfer.

ME 518 Principles of Combustion I. (3-0) 3 hours.

Combustion thermodynamics, flame temperature and equilibrium compositions, ignition processes, detonation and deflagration, diffusion flames, similitude, and assigned papers.

ME 550 Advanced Mechanical Design. 3 hours.

Constitutive relationships, Castigliano’s method, fatigue, stochastic relationships, time-dependent properties, and other advanced topics.

ME 553 Mechanical Reliability. (3-0) 3 hours.
Prerequisites: ME 350 and ME 450.

Probabilistic methodology for assessing the reliability of mechanical systems at the design stage.

ME 561 Techniques in Experimental Research. (2-3) 3 hours.
Prerequisite: ME 360.

Design of experimental research systems and study of instrumentation, transducers, and related electronic components. Data acquisition, error analysis, experiment planning, and proposal writing are included.

ME 562 Intermediate Dynamics (also AEM 562). 3 hours.

Modeling and analysis of dynamic systems with emphasis on Newtonian and Lagrangian techniques; Hamilton’s principles; and application to three-dimensional motion of rigid bodies.

ME 570 Mechanical Vibration (also AEM 570). 3 hours.

Formulation and solution of free and forced vibration problems for undamped and damped systems with single and multiple degrees of freedom. Both modal and frequency response techniques are discussed. An introduction to continuous systems is included.

ME 571 Fundamentals of Acoustics. (3-0) 3 hours.
Prerequisites: MATH 238, PH 106, and either ECE 320 or ECE 225.

Fundamental physical principles underlying wave propagation and resonance in mechanical systems. Introduces applications and provides experience in acoustic and audio measurements and the associated instrumentation.

ME 577 Advanced Linear Control (also AEM/ECE 577). (3-0) 3 hours
Prerequisite: ME 475.

Modern techniques for the analysis and design of linear control systems. Matrix formulation; multivariable control systems; state-variable concepts; discrete-time systems; optimization; and statistical design methods.

ME 578 Nonlinear Control Systems (also AEM 578). (3-0) 3 hours.

Classical and modern methods for analysis and design of nonlinear automatic control systems. State variables, phase plane, describing functions, relay control, and optimal and adaptive control systems are covered.

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