The Washington State University Catalog

Courses with the M E Prefix

The online catalog includes the most recent changes to courses and degree requirements that have been approved by the Faculty Senate, including changes that are not yet effective. Courses showing two entries of the same number indicate that the course information is changing. The most recently approved version is shown first, followed by the older version, in gray, with its last-effective term preceding the course title. Courses shown in gray with only one entry of the course number are being discontinued.

ALL courses have a new effective date for FALL 2012 in order to integrate with WSU’s new student information system, zzusis.

NOTE: Prerequisite course information for spring 2012 and summer 2012 may be found in the PDF catalog online.

Courses

Mechanical Engineering (ME / M E)

116 Engineering Computer-aided Design and Visualization 2 (0-6) Course Prerequisite: MATH 171 or concurrent enrollment. Introduction to 3-D solid modeling, parts, drawings, assemblies, multi-body parts, sketch editing, sheet metal, weldments, surface and mold tools.

116 (Effective through Spring 2014) Engineering Computer-aided Design and Visualization 2 (0-6) Course Prerequisite: MATH 171 or concurrent enrollment. Introduction to 3-D solid modeling, parts, drawings, assemblies, multi-body parts, sketch editing, sheet metal, weldments, surface and mold tools.

212 Dynamics 3 Course Prerequisite: MATH 172 or 182 with a grade of C or better; CE 211 with a grade C or better. Kinematics and kinetics of particles and rigid bodies; introduction to mechanical vibration. Cooperative: Open to UI degree-seeking students.

212 (Effective through Spring 2014) Dynamics 3 Course Prerequisite: MATH 172 or 182 with a grade of C or better; CE 211 with a grade C or better. Kinematics and kinetics of particles and rigid bodies; introduction to mechanical vibration. Cooperative: Open to UI degree-seeking students.

216 Integrated CAD Design 2 (0-6) Course Prerequisite: ME 116 with a C or better; CE 215 or concurrent enrollment. CAD based analysis for engineering design, the application of motion, FEA and CFD, CAD simulations to the engineering design process.

216 (Effective through Spring 2014) Integrated CAD Design 2 (0-6) Course Prerequisite: ME 116 with a C or better; CE 215 or concurrent enrollment. CAD based analysis for engineering design, the application of motion, FEA and CFD, CAD simulations to the engineering design process.

220 Materials Laboratory 1 (0-3) Course Prerequisite: CE 215 or concurrent enrollment. Mechanical behavior of materials and application to engineering structures.

220 (Effective through Spring 2014) Materials Laboratory 1 (0-3) Course Prerequisite: CE 215 or concurrent enrollment. Mechanical behavior of materials and application to engineering structures.

301 Fundamentals of Thermodynamics 3 Course Prerequisite: PHYSICS 201 with a grade of C or better. Thermodynamic properties of matter, ideal and real gases, work and heat, first and second laws and their application to engineering systems. Cooperative: Open to UI degree-seeking students.

301 (Effective through Spring 2014) Fundamentals of Thermodynamics 3 Course Prerequisite: PHYSICS 201 with a grade of C or better. Thermodynamic properties of matter, ideal and real gases, work and heat, first and second laws and their application to engineering systems. Cooperative: Open to UI degree-seeking students.

303 Fluid Mechanics 3 Course Prerequisite: ME 212. Fluid statics, laminar and turbulent flow, similitude, pipe flow, boundary layers, lift and drag and measurement techniques. Cooperative: Open to UI degree-seeking students.

303 (Effective through Summer 2015) Fluid Mechanics 3 Course Prerequisite: ME 212. Fluid statics, laminar and turbulent flow, similitude, pipe flow, boundary layers, lift and drag and measurement techniques. Cooperative: Open to UI degree-seeking students.

303 (Effective through Spring 2014) Fluid Mechanics 3 Course Prerequisite: ME 212. Fluid statics, laminar and turbulent flow, similitude, pipe flow, boundary layers, lift and drag and measurement techniques. Cooperative: Open to UI degree-seeking students.

305 Thermal and Fluids Laboratory 2 (1-3) Course Prerequisite: ME 301; ME 303; MATH 370 or concurrent enrollment; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Instrumentation, data acquisition, and theory verification in the thermal and fluid sciences.

305 (Effective through Summer 2015) Thermal and Fluids Laboratory 2 (1-3) Course Prerequisite: ME 301; ME 303; MATH 370 or concurrent enrollment; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Instrumentation, data acquisition, and theory verification in the thermal and fluid sciences.

305 (Effective through Spring 2014) Thermal and Fluids Laboratory 2 (1-3) Course Prerequisite: ME 301; ME 303; MATH 370 or concurrent enrollment; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Instrumentation, data acquisition, and theory verification in the thermal and fluid sciences.

310 Manufacturing Processes 2 Course Prerequisite: MSE 201; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Manufacturing processes, material fabrication, and nontraditional processing.

310 (Effective through Spring 2014) Manufacturing Processes 2 Course Prerequisite: MSE 201; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Manufacturing processes, material fabrication, and nontraditional processing.

311 Manufacturing Processes Laboratory 1 (0-3) Course Prerequisite: ME 310 or concurrent enrollment; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Manufacturing processes laboratory in machining, welding, forming; manufacturing project.

311 (Effective through Spring 2014) Manufacturing Processes Laboratory 1 (0-3) Course Prerequisite: ME 310 or concurrent enrollment; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Manufacturing processes laboratory in machining, welding, forming; manufacturing project.

313 Engineering Analysis 3 (2-3) Course Prerequisite: MATH 315 or concurrent enrollment; CE 215; E E 221, CPT S 121, or CPT S 251. Analysis and modeling of engineering problems utilizing numerical and mathematical techniques and computers. Cooperative: Open to UI degree-seeking students.

313 (Effective through Summer 2015) Engineering Analysis 3 (2-3) Course Prerequisite: MATH 315 or concurrent enrollment; CE 215; E E 221, CPT S 121, or CPT S 251. Analysis and modeling of engineering problems utilizing numerical and mathematical techniques and computers. Cooperative: Open to UI degree-seeking students.

313 (Effective through Spring 2014) Engineering Analysis 3 (2-3) Course Prerequisite: MATH 315 or concurrent enrollment; CE 215; E E 221, CPT S 121, or CPT S 251. Analysis and modeling of engineering problems utilizing numerical and mathematical techniques and computers. Cooperative: Open to UI degree-seeking students.

316 [M] Systems Design 3 Course Prerequisite: CE 215; ME 216; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Systems and component design; product development from specifications to manufacturing; team-based CAD design projects; engineering economics; engineering professional skills.

316 (Effective through Summer 2015) [M] Systems Design 3 Course Prerequisite: CE 215; ME 216; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Systems and component design; product development from specifications to manufacturing; team-based CAD design projects; engineering economics; engineering professional skills.

316 (Effective through Spring 2014) [M] Systems Design 3 Course Prerequisite: CE 215; ME 216; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Systems and component design; product development from specifications to manufacturing; team-based CAD design projects; engineering economics; engineering professional skills.

348 Dynamics Systems 3 Course Prerequisite: ME 212; ME 313; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Fundamentals of vibration analysis, control systems, system modeling and dynamics analysis.

348 (Effective through Spring 2014) Dynamics Systems 3 Course Prerequisite: ME 212; ME 313; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Fundamentals of vibration analysis, control systems, system modeling and dynamics analysis.

401 Mechatronics 3 (2-3) Course Prerequisite: E E 304; ME 348. Integration of mechanical and microprocessor-based systems; control theory implemented with data acquisition systems; sensors; actuators, signal conditioning, programmable logic controllers.

401 (Effective through Spring 2014) Mechatronics 3 (2-3) Course Prerequisite: E E 304; ME 348. Integration of mechanical and microprocessor-based systems; control theory implemented with data acquisition systems; sensors; actuators, signal conditioning, programmable logic controllers.

402 Thermal Systems Design 3 Course Prerequisite: ME 404; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Design and analysis of thermofluid systems using principles of thermodynamics, fluid mechanics and heat transfer.

402 (Effective through Summer 2015) Thermal Systems Design 3 Course Prerequisite: ME 404; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Design and analysis of thermofluid systems using principles of thermodynamics, fluid mechanics and heat transfer.

402 (Effective through Spring 2014) Thermal Systems Design 3 Course Prerequisite: ME 404; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Design and analysis of thermofluid systems using principles of thermodynamics, fluid mechanics and heat transfer.

404 Heat Transfer 3 Course Prerequisite: ME 301; ME 303; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Conduction, radiation, and convection heat transfer; analytical, numerical, experimental results for solids, liquids, and gases; heat exchanger design. Cooperative: Open to UI degree-seeking students.

404 (Effective through Spring 2014) Heat Transfer 3 Course Prerequisite: ME 301; ME 303; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Conduction, radiation, and convection heat transfer; analytical, numerical, experimental results for solids, liquids, and gases; heat exchanger design. Cooperative: Open to UI degree-seeking students.

406 [M] Experimental Design 3 (1-6) Course Prerequisite: ME 220; ME 305; ME 316; ME 404. Designing, conducting, and reporting of experimental investigations involving mechanical equipment. Recommended preparation: ME 348.

406 (Effective through Spring 2014) [M] Experimental Design 3 (1-6) Course Prerequisite: ME 220; ME 305; ME 316; ME 404. Designing, conducting, and reporting of experimental investigations involving mechanical equipment. Recommended preparation: ME 348.

407 Computational Fluid Dynamics 3 Course Prerequisite: ME 303. Basic concepts and applications of computational fluid dynamics to the analysis and design of fluid systems and components.

407 (Effective through Spring 2014) Computational Fluid Dynamics 3 Course Prerequisite: ME 303. Basic concepts and applications of computational fluid dynamics to the analysis and design of fluid systems and components.

413 Mechanics of Solids 3 Course Prerequisite: CE 215; MSE 201. Elasticity, elastic stress distributions; plastic deformation of single and polycrystals; introduction to dislocation theory and its applications; creep, fracture, fatigue. (Crosslisted course offered as MSE 413, ME 413).

413 (Effective through Spring 2014) Mechanics of Solids 3 Course Prerequisite: CE 215; MSE 201. Elasticity, elastic stress distributions; plastic deformation of single and polycrystals; introduction to dislocation theory and its applications; creep, fracture, fatigue. (Crosslisted course offered as MSE 413, ME 413).

414 Machine Design 3 Course Prerequisite: CE 215; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Optimal design of machinery; analysis for prevention of machine elements failure. Recommended preparation: ME 220.

414 (Effective through Summer 2015) Machine Design 3 Course Prerequisite: CE 215; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Optimal design of machinery; analysis for prevention of machine elements failure. Recommended preparation: ME 220.

414 (Effective through Spring 2014) Machine Design 3 Course Prerequisite: CE 215; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. Optimal design of machinery; analysis for prevention of machine elements failure. Recommended preparation: ME 220.

416 [CAPS] [T] Mechanical Systems Design 3 (1-6) Course Prerequisite: ME 316; ME 348; ME 404; ME 414 or concurrent enrollment; senior standing. Integrative design in mechanical engineering; multidisciplinary design project considering both technical and non-technical contexts; organizational dynamics and communications.

416 (Effective through Spring 2014) [CAPS] [T] Mechanical Systems Design 3 (1-6) Course Prerequisite: ME 316; ME 348; ME 404; ME 414 or concurrent enrollment; senior standing. Integrative design in mechanical engineering; multidisciplinary design project considering both technical and non-technical contexts; organizational dynamics and communications.

419 Air Conditioning 3 Course Prerequisite: ME 404. Principles of heat and moisture transfer; air motion and purity in buildings; design of systems. Cooperative: Open to UI degree-seeking students.

419 (Effective through Spring 2014) Air Conditioning 3 Course Prerequisite: ME 404. Principles of heat and moisture transfer; air motion and purity in buildings; design of systems. Cooperative: Open to UI degree-seeking students.

431 Design of Solar Thermal Systems 3 Course Prerequisite: ME 301; ME 303; ME 404; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, Electrical Engineering, or Architecture. Design of solar thermal systems for heating and cooling of buildings, heating of water, electrical generation, industrial processes and distillation.

431 (Effective through Spring 2014) Design of Solar Thermal Systems 3 Course Prerequisite: ME 301; ME 303; ME 404; certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, Electrical Engineering, or Architecture. Design of solar thermal systems for heating and cooling of buildings, heating of water, electrical generation, industrial processes and distillation.

436 Combustion Engines 3 Course Prerequisite: ME 303. Internal combustion engines; spark ignition engines, diesels, and gas turbines.

436 (Effective through Summer 2015) Combustion Engines 3 Course Prerequisite: ME 303. Internal combustion engines; spark ignition engines, diesels, and gas turbines.

436 (Effective through Spring 2014) Combustion Engines 3 Course Prerequisite: ME 303. Internal combustion engines; spark ignition engines, diesels, and gas turbines.

439 Applied Aerodynamics 3 Course Prerequisite: ME 303. Aerodynamic lift and drag; circulation; boundary layers, application to subsonic aircraft wing design.

439 (Effective through Spring 2014) Applied Aerodynamics 3 Course Prerequisite: ME 303. Aerodynamic lift and drag; circulation; boundary layers, application to subsonic aircraft wing design.

449 Mechanical Vibration 3 Course Prerequisite: ME 348. Vibrating systems and noise producing mechanisms; design for noise and vibration control. Cooperative: Open to UI degree-seeking students.

449 (Effective through Spring 2014) Mechanical Vibration 3 Course Prerequisite: ME 348. Vibrating systems and noise producing mechanisms; design for noise and vibration control. Cooperative: Open to UI degree-seeking students.

461 Introduction to Nuclear Engineering 3 Course Prerequisite: Certified major in engineering or physical sciences; senior standing; MATH 315. Applied nuclear physics; application to the nuclear fuel cycle and nuclear reactor core design; nuclear reactor systems and safety. (Crosslisted course offered as ME 461, CHE 461).

461 (Effective through Summer 2015) Introduction to Nuclear Engineering 3 Course Prerequisite: Certified major in engineering or physical sciences; senior standing; MATH 315. Applied nuclear physics; application to the nuclear fuel cycle and nuclear reactor core design; nuclear reactor systems and safety. (Crosslisted course offered as ME 461, CHE 461).

461 (Effective through Spring 2014) Introduction to Nuclear Engineering 3 Course Prerequisite: Certified major in engineering or physical sciences; senior standing; MATH 315. Applied nuclear physics; application to the nuclear fuel cycle and nuclear reactor core design; nuclear reactor systems and safety. (Crosslisted course offered as ME 461, CHE 461).

472 Finite Element Methods in Design 3 Course Prerequisite: ME 414. Design of selected mechanical systems components using finite element analysis.

472 (Effective through Spring 2014) Finite Element Methods in Design 3 Course Prerequisite: ME 414. Design of selected mechanical systems components using finite element analysis.

473 Advanced CAD and Geometric Modeling 3 (2-3) Course Prerequisite: ME 316. Parametric and feature based CAD/CAM; geometric modeling and its mathematical basis; integration of CAD with design processes and other software.

473 (Effective through Spring 2014) Advanced CAD and Geometric Modeling 3 (2-3) Course Prerequisite: ME 316. Parametric and feature based CAD/CAM; geometric modeling and its mathematical basis; integration of CAD with design processes and other software.

474 Design for Manufacture and Modern Manufacturing Strategies 3 Course Prerequisite: ME 310. Design for manufacture and assembly; modern manufacturing philosophies and practices; lean manufacturing; manufacturing cost and time analysis; quality control.

474 (Effective through Spring 2014) Design for Manufacture and Modern Manufacturing Strategies 3 Course Prerequisite: ME 310. Design for manufacture and assembly; modern manufacturing philosophies and practices; lean manufacturing; manufacturing cost and time analysis; quality control.

475 Manufacturing Enterprise Systems -- Automation and Product Realization 3 (2-3) Course Prerequisite: ME 313; ME 316. Manufacturing automation and product realization; role of information technology and electronic data in manufacturing enterprise systems; product life-cycle management (PLM) and related tools and processes; sustainable and green manufacturing.

475 (Effective through Spring 2014) Manufacturing Enterprise Systems -- Automation and Product Realization 3 (2-3) Course Prerequisite: ME 313; ME 316. Manufacturing automation and product realization; role of information technology and electronic data in manufacturing enterprise systems; product life-cycle management (PLM) and related tools and processes; sustainable and green manufacturing.

481 Control Systems 3 Course Prerequisite: ME 348. Analysis and design of feedback control systems. Cooperative: Open to UI degree-seeking students.

481 (Effective through Spring 2014) Control Systems 3 Course Prerequisite: ME 348. Analysis and design of feedback control systems. Cooperative: Open to UI degree-seeking students.

483 Topics in Mechanical Engineering V 1 (0-4) to 4 (0-16) May be repeated for credit; cumulative maximum 7 hours. Contemporary topics in materials engineering.

483 (Effective through Spring 2014) Topics in Mechanical Engineering V 1 (0-4) to 4 (0-16) May be repeated for credit; cumulative maximum 7 hours. Contemporary topics in materials engineering.

495 Internship in Mechanical Industry V 3-6 May be repeated for credit; cumulative maximum 12 hours. Course Prerequisite: Certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. By interview only. Students work full time on engineering assignment in approved industries with industrial and faculty supervision. S, F grading.

495 (Effective through Spring 2014) Internship in Mechanical Industry V 3-6 May be repeated for credit; cumulative maximum 12 hours. Course Prerequisite: Certified major in Mechanical Engineering, Materials Science Engineering, Civil Engineering, or Electrical Engineering. By interview only. Students work full time on engineering assignment in approved industries with industrial and faculty supervision. S, F grading.

499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.

499 (Effective through Spring 2014) Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.

501 Continuum Mechanics 3 Unified presentation of principles common to all branches of solid and fluid mechanics; viscous fluids, elasticity, viscoelasticity, and plasticity.

501 (Effective through Spring 2014) Continuum Mechanics 3 Unified presentation of principles common to all branches of solid and fluid mechanics; viscous fluids, elasticity, viscoelasticity, and plasticity.

502 Sustainability Assessment for Engineering Design 3 Sustainability assessment, including environmental, societal, and economic assessment, in design and planning for entire product life cycle.

502 (Effective through Spring 2014) Sustainability Assessment for Engineering Design 3 Sustainability assessment, including environmental, societal, and economic assessment, in design and planning for entire product life cycle.

503 Systems Design Approaches for Sustainability 3 Sustainability in systems design methodologies; systems modeling and decision-making for sustainability; multidisciplinary design optimization; research topics.

503 (Effective through Spring 2014) Systems Design Approaches for Sustainability 3 Sustainability in systems design methodologies; systems modeling and decision-making for sustainability; multidisciplinary design optimization; research topics.

509 MEMS Engineering 3 (2-3) Introduction to the design, fabrication and application of microelectromechanical systems. (Crosslisted course offered as ME 509, MSE 509).

509 (Effective through Spring 2014) MEMS Engineering 3 (2-3) Introduction to the design, fabrication and application of microelectromechanical systems. (Crosslisted course offered as ME 509, MSE 509).

513 Crystal Plasticity 3 Dislocation theory; slip; climb; mechanical properties of polycrystalline materials and application to important deformation processes. (Crosslisted course offered as MSE 513, ME 513, MATSE 513). Cooperative: Open to UI degree-seeking students.

513 (Effective through Spring 2014) Crystal Plasticity 3 Dislocation theory; slip; climb; mechanical properties of polycrystalline materials and application to important deformation processes. (Crosslisted course offered as MSE 513, ME 513, MATSE 513). Cooperative: Open to UI degree-seeking students.

514 Thermodynamics of Solids 3 Thermodynamic properties of solid solutions; models for substitutional and interstitial solutions; configurational and non-configurational contributions; calculation of phase diagrams. (Crosslisted course offered as MSE 514, ME 514).

514 (Effective through Spring 2014) Thermodynamics of Solids 3 Thermodynamic properties of solid solutions; models for substitutional and interstitial solutions; configurational and non-configurational contributions; calculation of phase diagrams. (Crosslisted course offered as MSE 514, ME 514).

515 Advanced Heat Transfer 3 Derivation of the energy conservation equation; laminar and turbulent forced convection heat transfer with internal and external flow; free convection. Cooperative: Open to UI degree-seeking students.

515 (Effective through Spring 2014) Advanced Heat Transfer 3 Derivation of the energy conservation equation; laminar and turbulent forced convection heat transfer with internal and external flow; free convection. Cooperative: Open to UI degree-seeking students.

516 Conduction and Radiation Heat Transfer 3 Principles of conduction and radiation heat transfer with focus on solving conduction and radiation problems of engineering interest.

516 (Effective through Spring 2014) Conduction and Radiation Heat Transfer 3 Principles of conduction and radiation heat transfer with focus on solving conduction and radiation problems of engineering interest.

517 Thin Films 3 Materials science aspect of thin films, including growth, characterization, and properties for electrical, mechanical, corrosion, and optical behavior. (Crosslisted course offered as MSE 517, ME 517).

517 (Effective through Spring 2014) Thin Films 3 Materials science aspect of thin films, including growth, characterization, and properties for electrical, mechanical, corrosion, and optical behavior. (Crosslisted course offered as MSE 517, ME 517).

520 Multiscale Modeling in Thermomechanics of Materials 3 Multiscale problems in thermomechanics of materials; practical and computational aspects of homogenization, granular materials, dislocation plasticity and atomistic methods. (Crosslisted course offered as ME 520, MSE 520).

520 (Effective through Spring 2014) Multiscale Modeling in Thermomechanics of Materials 3 Multiscale problems in thermomechanics of materials; practical and computational aspects of homogenization, granular materials, dislocation plasticity and atomistic methods. (Crosslisted course offered as ME 520, MSE 520).

521 Fundamentals of Fluids I 3 Governing equations of fluid mechanics accompanied by applications of Navier-Stokes equation to simple flow situations, boundary layer analysis. Cooperative: Open to UI degree-seeking students.

521 (Effective through Spring 2014) Fundamentals of Fluids I 3 Governing equations of fluid mechanics accompanied by applications of Navier-Stokes equation to simple flow situations, boundary layer analysis. Cooperative: Open to UI degree-seeking students.

525 Biomechanics 3 Methods for analysis of rigid body and deformable mechanics; application to biological tissue, especially bone, cartilage, ligaments, tendon and muscle. (Crosslisted course offered as BIO ENG 425/525, ME 525). Credit not granted for more than one of BIO ENG 425, BIO ENG 525, or ME 525. Offered at 400 and 500 level.

525 (Effective through Spring 2014) Biomechanics 3 Methods for analysis of rigid body and deformable mechanics; application to biological tissue, especially bone, cartilage, ligaments, tendon and muscle. (Crosslisted course offered as BIO ENG 425/525, ME 525). Credit not granted for more than one of BIO ENG 425, BIO ENG 525, or ME 525. Offered at 400 and 500 level.

526 Statistical Thermodynamics 3 Microscopic development of equilibrium; classical and quantum particle statistics; statistical description of real and ideal gases, solids, and liquids. Cooperative: Open to UI degree-seeking students.

526 (Effective through Spring 2014) Statistical Thermodynamics 3 Microscopic development of equilibrium; classical and quantum particle statistics; statistical description of real and ideal gases, solids, and liquids. Cooperative: Open to UI degree-seeking students.

527 Macroscopic Thermodynamics 3 Advanced thermodynamics from macroscopic viewpoint; basic postulates, equilibrium, stability, property relations; application to thermal-fluid and solid mechanics; irreversible thermodynamics. Cooperative: Open to UI degree-seeking students.

527 (Effective through Spring 2014) Macroscopic Thermodynamics 3 Advanced thermodynamics from macroscopic viewpoint; basic postulates, equilibrium, stability, property relations; application to thermal-fluid and solid mechanics; irreversible thermodynamics. Cooperative: Open to UI degree-seeking students.

530 Elasticity 3 Theory of kinematics of solid deformable bodies; conservation laws applied to an elastic continuum; generalized linear stress-strain behavior with applications. (Crosslisted course offered as ME 530, MSE 530). Cooperative: Open to UI degree-seeking students.

530 (Effective through Spring 2014) Elasticity 3 Theory of kinematics of solid deformable bodies; conservation laws applied to an elastic continuum; generalized linear stress-strain behavior with applications. (Crosslisted course offered as ME 530, MSE 530). Cooperative: Open to UI degree-seeking students.

531 Theory of Plasticity 3 The fundamentals of the theory of plasticity; the classical theory of plasticity; the classical theory and modern continuum theories of large elasto-plastic deformations. (Crosslisted course offered as ME 531, MSE 531).

531 (Effective through Spring 2014) Theory of Plasticity 3 The fundamentals of the theory of plasticity; the classical theory of plasticity; the classical theory and modern continuum theories of large elasto-plastic deformations. (Crosslisted course offered as ME 531, MSE 531).

532 Finite Elements 3 Theory of finite elements; applications to general engineering systems considered as assemblages of discrete elements. (Crosslisted course offered as CE 532, ME 532). Cooperative: Open to UI degree-seeking students.

532 (Effective through Spring 2014) Finite Elements 3 Theory of finite elements; applications to general engineering systems considered as assemblages of discrete elements. (Crosslisted course offered as CE 532, ME 532). Cooperative: Open to UI degree-seeking students.

534 Mechanics of Composite Materials 3 Analysis of micromechanical and macromechanical behavior of composite materials with emphasis on fiber-reinforced composite; prediction of properties; stiffness and strength theories; laminated beams and plates; dynamic behavior; environmental effects. (Crosslisted course offered as ME 534, MSE 534). Cooperative: Open to UI degree-seeking students.

534 (Effective through Spring 2014) Mechanics of Composite Materials 3 Analysis of micromechanical and macromechanical behavior of composite materials with emphasis on fiber-reinforced composite; prediction of properties; stiffness and strength theories; laminated beams and plates; dynamic behavior; environmental effects. (Crosslisted course offered as ME 534, MSE 534). Cooperative: Open to UI degree-seeking students.

537 Fracture Mechanics and Mechanisms 3 Fracture mechanics and mechanisms and the microstructural origins of toughness in metals, polymers and composites. (Crosslisted course offered as MSE 537, ME 537).

537 (Effective through Spring 2014) Fracture Mechanics and Mechanisms 3 Fracture mechanics and mechanisms and the microstructural origins of toughness in metals, polymers and composites. (Crosslisted course offered as MSE 537, ME 537).

540 Advanced Dynamics of Physical Systems 3 Newtonian dynamics, rotating coordinate systems; Lagrangian and Hamiltonian mechanics; gyroscopic mechanics, other applications. Cooperative: Open to UI degree-seeking students.

540 (Effective through Spring 2014) Advanced Dynamics of Physical Systems 3 Newtonian dynamics, rotating coordinate systems; Lagrangian and Hamiltonian mechanics; gyroscopic mechanics, other applications. Cooperative: Open to UI degree-seeking students.

556 Numerical Modeling in Fluid Mechanics 3 Fundamental concepts in development of numerical models for fluid flow with applications to steady and unsteady flows. Cooperative: Open to UI degree-seeking students.

556 (Effective through Spring 2014) Numerical Modeling in Fluid Mechanics 3 Fundamental concepts in development of numerical models for fluid flow with applications to steady and unsteady flows. Cooperative: Open to UI degree-seeking students.

565 Nuclear Reactor Engineering 3 Reactor power distribution; thermal and exposure limits; critical heat flux and pressure design; neutronic/thermal hydraulic relationships; transient/accident analysis.

565 (Effective through Spring 2014) Nuclear Reactor Engineering 3 Reactor power distribution; thermal and exposure limits; critical heat flux and pressure design; neutronic/thermal hydraulic relationships; transient/accident analysis.

574 Foundations of CAD 3 Topics fundamental to the creation of CAD, engineering visualization, and virtual reality based engineering software. Cooperative: Open to UI degree-seeking students.

574 (Effective through Spring 2014) Foundations of CAD 3 Topics fundamental to the creation of CAD, engineering visualization, and virtual reality based engineering software. Cooperative: Open to UI degree-seeking students.

575 Geometric Modeling 3 Study of the mathematics behind the creation of complex shapes for CAD using curves, surfaces, and solids.

575 (Effective through Spring 2014) Geometric Modeling 3 Study of the mathematics behind the creation of complex shapes for CAD using curves, surfaces, and solids.

579 Advanced Topics in Mechanical Engineering V 1-3 May be repeated for credit.

579 (Effective through Spring 2014) Advanced Topics in Mechanical Engineering V 1-3 May be repeated for credit.

581 Control Systems 3 Analysis and design of feedback control systems. Cooperative: Open to UI degree-seeking students.

581 (Effective through Spring 2014) Control Systems 3 Analysis and design of feedback control systems. Cooperative: Open to UI degree-seeking students.

598 Seminar 1 May be repeated for credit. Current research interests. S, F grading.

598 (Effective through Spring 2014) Seminar 1 May be repeated for credit. Current research interests. S, F grading.

600 Special Projects or Independent Study V 1-18 May be repeated for credit. Independent study, special projects, and/or internships. Students must have graduate degree-seeking status and should check with their major advisor before enrolling in 600 credit, which cannot be used toward the core graded credits required for a graduate degree. S, F grading.

600 (Effective through Spring 2014) Special Projects or Independent Study V 1-18 May be repeated for credit. Independent study, special projects, and/or internships. Students must have graduate degree-seeking status and should check with their major advisor before enrolling in 600 credit, which cannot be used toward the core graded credits required for a graduate degree. S, F grading.

700 Master's Research, Thesis, and/or Examination V 1-18 May be repeated for credit. Independent research and advanced study for students working on their master's research, thesis and/or final examination. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 700 credit. S, U grading.

700 (Effective through Spring 2014) Master's Research, Thesis, and/or Examination V 1-18 May be repeated for credit. Independent research and advanced study for students working on their master's research, thesis and/or final examination. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 700 credit. S, U grading.

702 Master's Special Problems, Directed Study, and/or Examination V 1-18 May be repeated for credit. Independent research in special problems, directed study, and/or examination credit for students in a non-thesis master's degree program. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 702 credit. S, U grading.

702 (Effective through Spring 2014) Master's Special Problems, Directed Study, and/or Examination V 1-18 May be repeated for credit. Independent research in special problems, directed study, and/or examination credit for students in a non-thesis master's degree program. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 702 credit. S, U grading.

800 Doctoral Research, Dissertation, and/or Examination V 1-18 May be repeated for credit. Independent research and advanced study for students working on their doctoral research, dissertation and/or final examination. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 800 credit. S, U grading.

800 (Effective through Spring 2014) Doctoral Research, Dissertation, and/or Examination V 1-18 May be repeated for credit. Independent research and advanced study for students working on their doctoral research, dissertation and/or final examination. Students must have graduate degree-seeking status and should check with their major advisor/committee chair before enrolling for 800 credit. S, U grading.

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