Professors Adams, Bernal, Brackin, Burchett, Cantwell, Chambers, Cornwell, Cunningham, Fine, Fisher, Gibson, Haan, Jones, Kawano, Layton, Lui, McCormack, Mayhew, Mech, Mirth, Moorhead, Moseley, Olson, Onyancha, Purdy, Richards, Sanders, Stamper, White and Winck.

ME 123 Computer Programming   4R-0L-4C  F,W,S  Prereq: ME/PHOE major or permission of instructor
Software tools and engineering processes for mechanical engineers. Topics may include: structured programming (Matlab), simulation of rigid body motion, presentation software, and spreadsheets.  Introduction to teaming and creativity.

ME 193 Selected Topics in Design   Hours as assigned. Maximum 4 credits per term.  F,W,S
Selected student design projects. May include testing and/or computer aided design.

ME 201 Thermodynamics I   4R-0L-4C  F  Prereq: MA 112
Covers first law of thermodynamics, second law of thermodynamics, concept of entropy, simple process analysis, properties of pure substances, equations of state, and state diagrams. Stresses use of property tables and charts and application of the first and the second laws to open and closed systems undergoing changes.

ME 293 Selected Topics in Design.  Hours as assigned. Maximum 4 credits per term. F,W,S Prereq: Sophomore class standing
Selected student design projects. May include testing and/or computer aided design.

ME 301 Thermodynamics II   4R-0L-4C  F,W  Prereq: ES 202 or ME 201
Applies property and component background to the analysis of various power and refrigeration cycles. Presents gas and gas-vapor mixtures, psychometric processes, and combustion. Introduces compressible flow.

ME 302 Heat Transfer   4R-0L-4C  S,F  Prereq: MA 211 and ES 202 or CHE 301 or EM 301
Introduces the basic modes of heat transfer, heat transfer properties, steady and unsteady one-dimensional heat conduction, free and forced convection, radiation and heat exchangers. Other topics may include numerical methods and boiling and condensation.

ME 305 Introduction to Aerospace Engineering   4R-0L-4C  S  Prereq: ES 202
Application of fundamental engineering concepts to aerospace systems. Aircraft performance and stability. Physical properties of the standard atmosphere. Aerodynamics of the airplane including lift, drag and pitching moment estimation. Introduction to orbital mechanics.

ME 317 Design for Manufacturing   3R-0L-3C  W  Prereq: EM 104
This is an introductory course that examines the interactions between design and manufacturing from the designer's point of view. Common manufacturing processes will be introduced and design guidelines will be developed for each process. The successful student will leave this class with an appreciation that a designer must consider the method of manufacture during the design process to ensure that a product is functional, economically viable, and safe.

ME 318 Material Processing in Manufacturing   4R-0L-4C  Prereq: ME 328
An introductory course in the control of the properties of materials during manufacturing. Covers the interrelationship between material properties and the principal manufacturing processes like hot and cold working, casting, welding, heat treating and machining. Emphasizes the importance of considering manufacturability when making material selection decisions in design.

ME 321 Measurement Systems   3R-3L-4C  W,S  Prereq: EM 103, ES 205, MA 223
Fundamentals of measurement systems in mechanical engineering including transducer operation, signal conditioning, data reduction, and presentation of results. Transducer and measurement system characteristics including resolution, sensitivity, loading, time response, and frequency response. Operating principles of basic instrumentation for measurement of mechanical quantities such as force, torque, pressure, temperature, and flow. Topics include uncertainty analysis, data analysis, calibration, data acquisition, presentation of results, and an introduction to experiment design.

ME 323 Numerical Methods in Engineering 1R-3L-2C W,S Prereq: ME 123, or CSSE 120, MA 212
Engineering problems often lead to analytically intractable equations. This course combines structured programming and applied numerical methods to obtain approximate engineering solutions. Strategies include root finding, numerical integration, finite difference, initial value and boundary value problems. Matlab is used as the programming language for solving iterative problems numerically.

ME 328 Materials Engineering   4R-0L-4C  W  Prereq: CHEM 111
Introduces properties of metals, ceramics, polymers, and composites. Relates material processing to properties through underlying material structure. Overviews the materials available to engineers and discusses applications and material selection.

ME 380 Creative Design   4R-0L-4C  W  Prereq: Permission of instructor
Emphasis on the creative process in engineering design. Students will develop their design capability by exploring various conceptual blocks, using creative enhancement techniques and participating in on-the-spot design.

ME 393 Selected Topics in Design.   Hours as assigned. Maximum 4 credits per term.  F,W,S  Prereq: Junior class standing
Selected student design projects. May include testing and/or computer aided design.

ME 401 Foundations of Fluid Mechanics   3R-3L-4C  Prereq: ES 202 or EM 301, MA 212
Covers the fundamental concepts of fluid dynamics with an emphasis on physical understanding. Topics include control-volume and differential analyses of fluid motion, similitude, potential flow, vorticity transport, low Reynolds number flow, boundary-layer physics, turbulent transport, and compressible flow. Numerical and experimental methods for solving fluid engineering problem are introduced in a weekly laboratory including wind tunnel, particle image velocimetry, hot wire anemometry, and optical techniques. Other topics may be added or deleted as needed.

ME 402 Advanced Heat Transfer   4R-0L-4C  Prereq: ME 302
This course covers additional topics in conduction, convection and radiation heat transfer as well as an introduction to mass transfer, phase change and numerical methods.

ME 403 Kinematics of Machinery   4R-0L-4C  Prereq: ES 204, ME323
This is an introduction to kinematics, the study of the motion of machinery without regard to forces. Students perform both kinematic analysis and kinematic design of planar and spatial mechanisms, cams, and gear trains. Computer programming is used for iterative methods in both analysis and design. A design project is assigned to explore a particular kinematics problem in detail.

ME 405 Theoretical Aerodynamics   4R-0L-4C  F  Prereq: ES 202
Introduction to aerodynamics theory. Development of equations of conservation of mass and momentum. Vorticity, induced velocity and irrotational flow. Stream function, velocity potential, Laplace's equation and the principle of superposition. Flow about a body, the Kutta-Joukowski Theorem. Concepts of thin airfoil and finite wing theory. Exact solutions to elementary viscous flow problems.

ME 406 Control Systems   3R-3L-4C  F  Prereq: ES 205
Basic principles of feedback control theory. Mathematical modeling and performance analysis of dynamical systems. Includes stability analysis, root locus compensation and design, frequency response analysis. Implementation of control system analysis and design is gained with several laboratory experiences.

ME 407 Power Plants   4R-0L-4C  S  Prereq: ME 301
Steam, cogeneration and combined cycles are studied with the aid of property software. Various components of the cycles are studied in detail. A survey of alternative power sources is presented. Tours of power plants are taken when available.

ME 408 Renewable Energy   4R-0L-4C  Prereq: ES 202 or equivalent
Covers renewable energy sources such as solar heating and cooling, wind energy, biomass, and photovoltaic energy. Surveys the energy availability of these sources and life cycle cost and present value used to evaluate the system. Students will design a system which utilizes a renewable energy source and economically evaluate the system.

ME 409 Air Conditioning   4R-0L-4C  S  Prereq: ES 202 and ME 302 or consent of instructor
Human comfort and the properties of air. Air conditioning in residences, public and industrial buildings using vapor compression and absorption units. Cooling loads, psychrometry, fans, duct sizing and layout, automatic control, and acoustic design considerations.

ME 410 Internal Combustion Engines   4R-0L-4C  F  Prereq: ES 202
Study of spark ignition and compression ignition engines. Influences of engine design features on performance, economy, and air pollution. Influence of the combustion process, carburetion, fuel injection and ignition characteristics on engine operation.

ME 411 Propulsion Systems   4R-0L-4C  S  Prereq: ME 301
Application of basic principles in the study of the performance characteristics of air and space vehicles. Aerodynamics of steady one dimensional isentropic compressible flow. Shock waves, gas turbines, turbojet, turbofan, turboprop, turboshaft, ram jet, rocket, nuclear propulsion and space propulsion systems are discussed and compared.

ME 415 Corrosion and Engineering Materials   4R-0L-4C  Prereq: ME 328 or CHE 362
Presents fundamentals of metallurgy and corrosion mechanisms in engineering metals. Discusses various classes of corrosion and methods of mitigating corrosion with emphasis on practical situations.

ME 416 Introduction to MEMS: Fabrication and Applications   3R-3L-4C  S  Prereq: JR or SR standing
Properties of silicon wafers; wafer-level processes, surface and bulk micromachining, thin-film deposition, dry and wet etching, photolithography, process integration, simple actuators. Introduction to microfluidic systems. MEMS applications: capacitive accelerometer, cantilever and pressure sensor. Cross-listed with EP 410, ECE 416, and CHE 405.

ME 417 Advanced Materials Engineering   4R-0L-4C  Prereq: ME 328 and EM 203 or EM 204
Fundamentals of deformation and fracture in metals, polymers, and ceramics with application to design. Emphasis on time-temperature dependence of polymers, brittle behavior of advanced ceramics, and the fracture mechanics approach to design of high strength and critical application materials.

ME 419 Advanced MEMS: Modeling and Packaging   3R-3L-4C  F  Prereq: EP410 or equivalent course
Design process, modeling; analytical and numerical. Actuators; dynamics and thermal issues. Use of software for layout and simulation. Characterization and reliability of MEMS devices. Electrical interfacing and packaging of MEMS. Microsensors, microfluidic systems, applications in engineering, biology, chemistry, and physics.

ME 420 Consulting Engineering Seminar   2R-0L-2C  S  Prereq: Junior class standing
Discusses problems in the field of consulting engineering; seminars presented by practicing consulting engineers. Cross-listed with BE 400, ECE 466, CHE 420, and CE 420.

ME 421 Mechanical Engineering Laboratory   0R-6L-2C  F,W  Prereq: ME 321 and RH 330
Introduction to engineering experimentation, centered on an experimental project planned and executed by students. Uncertainty analysis, instrumentation systems, and statistical design of experiments. Emphasis on project on project planning and execution, developing a scope of work, interim deliverables, and reporting engineering results.

ME 422 Finite Elements for Engineering Applications   4R-1L-4C  W  Prereq: EM204
Introduces finite element methodology from a strongly theoretical perspective. Emphasizes solving various one-dimensional, transient, non-linear problem statements including heat conduction, beam deflection, convection/diffusion (transport), gas dynamic shocks, and open channel flows. Assesses higher order bases, time stepping procedures, iterative solvers, and finite difference methodologies. Utilizes Matlab for computational experiments.

ME 424 Composite Materials and Mechanics   3R-3L-4C  Arranged  Prereq: ES 202
Introduces materials and mechanics of composites with emphasis on high performance polymer matrix composites. Topics include material selection, laminate analysis, manufacturing, joining, and testing. A team design-built-test project is required.

ME 425 Aerospace Engineering Laboratory  1R-3L-2C  Prereq: ES 202
Introduction to experiment planning and execution. Projects involve wind tunnel testing including measurement of forces and moments and flow visualization. Student organized and executed with direct faculty consultation. Emphasis on written presentation.

ME 426 Turbomachinery   4R-0L-4C  Prereq: ES 205 or permission of instructor
Introduces the theory and issues related to the design of axial and radial flow turbines, compressors and pumps. Euler's equation and vector diagrams are used to evaluate energy transfer and efficiency.

ME 427 Introduction to Computational Fluid Dynamics   3R-3L-4C  Prereq: ES 202 and ME 323
Covers the key components of a CFD calculation: mesh generation, numerical algorithm and turbulence modeling. Survey of solution strategy includes both the finite volume and the finite difference methods. Issues on formal order of accuracy, dissipation, dispersion, stability and space-time coupling are discussed in detail. Both structured programs and commercial software will be used as vehicles in obtaining a CFD solution.

ME 430 Mechatronic Systems   3R-3L-4C  F,W  Prereq: ME 323 or CSSE 220 or ECE 230
Applications of microprocessors and microcontrollers and digital electronics to the design and utilizations of embedded control systems in smart systems and products. Topics include Boolean logic and algebra, system hardware and software development, and interfacing for mechanical applications.

ME 435 Robotics Engineering   3R-3L-4C  S  Prereq: ME 430 and Senior class standing
Interdisciplinary course in engineering systems applied to computer controlled automata. Topics include kinematics, control, operation, sensing, and design as applied to various types of industrial and other robots and programmable manipulators. A related project is required.

ME 450 Combustion   4R-0L-4C  Prereq: ME 301
Study of the thermodynamics and kinetics of combustion processes and the underlying chemical processes. Topics covered include deflagration and detonation waves, combustion of solid, liquid, and gaseous fuels, and environmental impacts of compustion. Laboratory experience via in-class, hands-on exercises.

ME 461 Aircraft Design  4R-0L-4C  W  Prereq: ME 305 or consent of instructor
Fundamentals of conceptual aircraft design. Aerodynamic analysis, design constraints based on customer requirements, mission profiles, aircraft sizing, optimization, and presentation of performance capabilities. Oral and written communication emphasized. Design teams.

ME 462 Thermal Design  4R-0L-4C  W,S  Prereq: ES 202 and ME 302
Applications of the thermodynamic, heat transfer, and fluid flow principles to the modeling and design of thermal systems. These systems include pumps, fans, and heat and mass exchangers. A team project which includes the design, construction and testing of a fluid or thermal device or system provides the focus for the course.

ME 470 Engineering Design Processes and Methodology  2R-3L-3C  F,S  Prereq: 3rd qtr junior standing
Design of multi-component systems with consideration of societal and economic factors. Useful design techniques (such as modeling, CPM, optimization, probabilistic approaches, etc.) and factors influencing design (such as human factors, products liability, ethics, safety, etc.) are presented and discussed. Laboratory assignments emphasize case studies. (Students completing ME470 may not receive credit for EMGT 461.)

ME 471 Capstone Design I  1R-6L-3C  W  Prereq: ME 470, ME 480
Design projects with industry. Students work in teams with three or four members on design projects furnished from external clients. The emphasis is on creating design solutions, with appropriate analyses, to meet stakeholders' needs. In addition to regular meetings with their faculty advisors, the teams are expected to maintain close and continuous communications with their clients during the quarter. The ten week projects culminate in oral presentations and Interim Written Reports which are submitted to the clients.

ME 472 Capstone Design II  1R-6L-3C  S  Prereq: ME 471
This course is a continuation of ME 471. The student teams continue their design solutions to a general problem furnished by an external client. Continuous and regular communication with the outside clients is expected, as well as with the faculty advisors. During these ten weeks the teams continue refining their solutions, complete the detail design, make oral presentations of the final design, and complete and submit the Final Written Report.

ME 480 Machine Component Design  4R-0L-4C  S & F  Prereq: EM 204
Applications of fundamentals of engineering mechanics in analysis and synthesis of machine components and systems. Special emphases placed on stress/strength analyses and fatigue failures. Design of mechanical components and systems including threaded fasteners, springs, bearings, gears, shafts, clutches, brakes, belts, chains, and couplings.

ME 490-491 Directed Research.   Hours as assigned. Maximum 4 credits per term.  F,W,S Prereq: Completion of freshman and sophomore course requirements and approval of adviser and course instructor
Selected projects for student research.

ME 493 Selected Topics in Design.   Hours as assigned. Maximum 4 credits per term.  F,W,S  Prereq: Senior class standing
Selected student design projects. May include testing and/or computer aided design.

ME 497 Special Topics in Mechanical Engineering   4R-0L-4C  Arranged
Topics of current interests in mechanical engineering.

NOTE: Maximum 8 credits total in ME 193, ME 293, ME 393, ME 490, ME 491 and ME 493.

Undergraduate-Graduate Courses

ME 490-491 Directed Research. Hours as assigned. Maximum 4 credits per term. F,W,S Pre: Completion of freshman and sophomore course requirements and approval of adviser and course instructor.

ME 501 Advanced Thermodynamics   4R-0L-4C  F  Prereq: ME 301 or equivalent
Study of advanced thermodynamic topics: modeling of transient systems, exergy (availability) analysis, equations of state and thermodynamics relationships for simple, compressible substances.

ME 502 Topics in Heat Transfer  4R-0L-4C  Arranged  Prereq: ME 302
Course may be repeated for different heat transfer topics.

ME 503 Viscous Fluid Flow  4R-0L-4C  Prereq: ME 401
Material and spatial descriptions of fluid motion. The Reynolds transport equation. The stress tensor and governing equations for the motion of viscous fluids. Newtonian fluids, the Navier-Stokes equations. Asymptotic solutions including fully developed channel flow, oscillating flat plate, wakes and jets. Introduction to boundary layers and turbulent flow including Reynolds averaging.

ME 505 Modeling and Simulation of Dynamic Systems  4R-0L-4C  Prereq: ES 205, MA 212
Modeling and simulation of engineering components and systems. Emphasis on a unified work-energy approach to modeling physical systems, model formulation using a differential-algebraic form of Lagrange's equation, and the numerical solution of the resulting initial-value problem. Applications are explored using modeling and simulation projects.

ME 506 Advanced Control Systems   4R-0L-4C  Prereq: ME 406 or equivalent or consent of instructor
Physical models for control; system response, analysis and design. Time domain; system response, analysis and design. Frequency domain; state variable representation/description; stability, controllability, observability; linear quadratic regulator, pole-placement, state estimation/observers.

ME 507 Applied Nonlinear Control Systems   4R-0L-4C Prereq: ME 406 or equivalent or consent of instructor
Analysis and design of controls for inherently nonlinear systems and the use of nonlinear elements in design. Techniques for analysis and design include, stability by Liaqunov, describing functions, phase plane analysis, sliding control, adaptive control and control of multi-input systems.

ME 510 Gas Dynamics   4R-0L-4C   F Prereq: ES 202
Introduction to the dynamics of a compressible flow. Equations of motion for subsonic and supersonic flow. Nozzle flow. Normal and oblique shock waves, Prandtl-Meyer flow. Steady and unsteady, one dimensional gas flow with friction and heat transfer.

ME 511 Numerical Methods for Dynamic Systems Analysis   4R-0L-4C  Prereq: ES 205 and ME 323
Applications of approximate numerical solution techniques, including the finite element method, to the analysis of dynamic, continuous systems. Introduction to variational principles in mechanics for purposes of formulating governing equations of motion.

ME 512 Light Weight Structures   4R-0L-4C  S  Prereq: MA 212 and EM 203 or EM 204
Applies the principles of mechanics to the structural analysis of mechanical and aerospace components. Covers stress tensors, shear flow in open and closed sections, beam columns, unsym-metrical bending. Castigliano's theorem, statically indeterminate structures , thin walled pressure vessels, introduction to elasticity.

ME 513 Environmental Noise   4R-0L-4C  F  Prereq: Senior class standing
Introduces noise and its sources as a potential public health hazard. Covers the basics of sound propagation relating to noise measurement and analysis. Emphasizes effects on humans and the environment. Covers methods of noise and vibration control and abatement including absorption, enclosures, vibration isolation, damping, and mufflers. Team projects involving noise measurement and reduction are required.

ME 516 Introduction to MEMS: Fabrication and Applications  3R-3L-4C  S  Prereq: JR or SR standing
Properties of silicon wafers; wafer-level processes, surface and bulk micromachining, thin-film deposition, dry and wet etching, photolithography, process integration, simple actuators. Introduction to microfluidic systems. MEMS applications: capacitive accelerometer, cantilever and pressure sensor.  Cross-listed with EP 510, ECE 516, CHE 505, and BE 516.

ME 518 Advanced Kinematics  4R-0L-4C  S  Prereq: ME 403
Considers the analysis, design, and simulation of planar and spatial mechanisms. The mechanisms examined are parallel manipulators, serial manipulators, and compliant mechanisms. These mechanisms are analyzed for position, velocity, acceleration, and workspace. The techniques used for the analysis include vector approaches, homogeneous transformations, and dual number techniques.

ME 519 Advanced MEMS: Modeling and Packaging  3R-3L-4C  F  Prereq: EP410 or equivalent course
Design process, modeling; analytical and numerical. Actuators; dynamics and thermal issues. Use of software for layout and simulation. Characterization and reliability of MEMS devices. Electrical interfacing and packaging of MEMS. Microsensors, microfluidic systems, applications in engineering, biology, chemistry, and physics.
Cross-listed with ECE 519, EP 511, and CHE 519.

ME 520 Computer-Aided Design and Manufacturing (CAD/CAM)  4R-0L-4C  W  Prereq: EM 104 and Senior class standing
Use and management of computer in engineering for drafting, design management, documentation, and manufacturing. Covers drafting methods and standards, design data management, CNC operations and implementation.

ME 522 Advanced Finite Element Analysis   4R-1L-4C  S  Prereq: ME 422
A continuation of ME 422. Includes multi-dimensional extensions of 2-D theory for transient, nonlinear problem statements in engineering. Utilizes Matlab and Ansys for developing and assessing FEA solutions to real world problems via theory developed in ME 422.

ME 526 Turbomachinery   4R-0L-4C  Prereq: ES 205 or equivalent, or permission of instructor
Introduces the theory and issues related to the design of axial and radial flow turbines, compressors and pumps. Euler's equation and vector diagrams are used to evaluate energy transfer and efficiency. Students enrolled in ME 526 must complete a design project including complexities not covered in ME 426. Students may not receive credit for both ME 426 and ME 526

ME 527 Computational Fluid Dynamics   3R-3L-4C  Prereq: ES 202 and ME 323
Covers the key components of a CFD calculation: mesh generation, numerical algorithmand turbulence modeling. Survey of solution strategy includes both the finite volume and the finite difference methods. Issues on formal orderof accuracy, dissipation, dispersion, stability and space-time coupling are discussed in detail. Both structured programs and commercial software will be used as vehicles in obtaining a CFD solution. Students enrolled in ME527 must complete a design project not covered in ME 427. Students may not receive credit for both ME 427 and ME 527.

ME 536 Computational Intelligence in Control Engineering   4R-0L-4C  Prereq: ME 406 or equivalent or consent of instructor
Machine learning and adaptation applied to feedback control, guidance and navigation. Neural Networks for pattern recognition, modeling and control. Radial basis function model identification by recursive least squares. Fuzzy logic controllers. Genetic algorithm for optimization and turning of controllers including fuzzy logic control.

ME 550 Combustion 4  R-0L-4C  Prereq: ME 301
Study of the thermodynamics and kinetics of combustion processes and the underlying chemical processes. Topics covered include deflagration and detonation waves, combustion of solid, liquid, and gaseous fuels, and environmental impacts of compustion. Laboratory experience via in-class, hands-on exercises. Students enrolled in ME 550 must complete a design project not covered in ME 450. Students may not receive credit for both ME 450 and ME 550.

ME 590 Thesis Research   F,W,S
Credits as assigned; however, not more than 12 credits will be applied toward the requirements of an M.S. degree.

ME 597 Selected Topics for Graduate Students.   Credits as assigned. Maximum 4 credits per term.  F,W,S