Mechanical Engineering Courses

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ME 333 Intro to Mechatronics

Introduction to the design of microprocessor controlled electromechanical systems. Interfacing sensors and actuators to a personal computer and a single-board computer. Electrical and mechanical design, prototyping, and construction. Dissection of a commercial mechatronic product. Students work in teams to produce final computer-controlled electromechanical projects of their own design. Open to students of all engineering disciplines and computer science.

ME 453 Micro Systems Design

Theory and tools for analyzing and designing microsystems used in MEMS/Nanotechnology. Includes device physics and analysis, design techniques, and computer-aided design tools for micro systems technology.
Information about
regularly scheduled courses:
2006-2007 class schedule in
Mechanical Engineering / other departments
100 / 200 Level
GEN ENG 106-1,2 Engineering Design and Communication
GEN ENG 205-3 Engineering Analysis 3 - System Dynamics
ME 202 Mechanics II
ME 220 Thermodynamics I
ME 224 Experimental Engineering I
ME 233 Analog & Digital Electronics Design
ME 240 Introduction to Mechanical Design and Manufacturing
ME 241 Fluid Mechanics I
ME 260 Mechanics of Sports
ME 262 Stress Analysis and Finite Elements I
300 level
ME 314 Theory of Machines - Dynamics

ME 315 Theory of Machines - Design of Elements

ME 316 Mechanical Systems Design

ME 317/318 Molecular Modeling and the Interface to Micromechanics

ME 319 Applications of Surface Science to Nanomechanics and Nanotribology
ME 325 Kinetic Theory and Statistical Thermodynamics
ME 333 Introduction to Mechatronics
ME 340-1, 340-2, 340-3 Computer-Integrated Manufacturing 1, 2, 3
ME 341 Computational Methods for Engineering Design
ME 346 Introduction to Tribology
ME 359 Reliability Engineering
ME 362 Stress Analysis
ME 363 Mechanical Vibrations
ME 365 Finite Elements for Stress Analysis
ME 366 Finite Elements for Design and Optimization
ME 370 Thermodynamics II
ME 373 Engineering Fluid Mechanics
ME 377 Heat Transfer
ME 381 Introduction to Microelectromechanical Systems (MEMS)
ME 382 Micro/Nano Science and Engineering
ME 385 Nanotechnology
ME 389 Molecular Machines in Biology
ME 390 Introduction to Dynamic Systems
ME 391 Fundamentals of Control Systems
ME 395 Special Topics in Mechanical Engineering
ME 398 Engineering Design
ME 399 Projects

Note: 100, 200, and 300 level courses are nominally undergraduate; 400 and 500 level are nominally graduate. However it is common for undergraduates to take some 400 level classes, or for graduate students to take some 300 level classes.
400 level
CE 414-1, CE 414-2 Mechanics of composite Materials
CE 415 Elasticity
ME 416 Nondestructive Evaluation
ME 420 Micro- and Nanoscale Fluid Dynamics
ME 421 Design and Analysis of Microfluidic Systems
ME 422 Molecular Scale Fluid Dynamics
ME 423 Introduction to Computational Fluid Dynamics
ME 424 Advanced Topics in Computational Fluid Dynamics
ME 425 Fundamentals of Fluid Dynamics
ME 426-1 Computational Mechanics I
ME 426-2 Computational Mechanics II
ME 427 Viscous Fluid Dynamics
ME 428 Compressible and Inviscid Fluid Dynamics
ME 429 Turbulent Flows
ME 432 Optimization Methods in Science and Engineering
ME 433 Advanced Mechatronics
ME 434 Random Data and Spectral Analysis
ME 438-1,2,3 Interdisciplinary Nonlinear Dynamics
ME 439 Computer Control in Manufacturing
ME 442 Metal Forming
ME 443 Metal Cutting
ME 446 Advanced Tribology
ME 448 Flexible Automation and Robotics
ME 449 Robotic Manipulation
ME 450 Geometry in Robotics
ME 451 Micromachining
ME 453 Micro Systems Design
ME 456 Mechanics of Advanced Materials
ME 465 Wave Propagation in Elastic Solids
ME 466 Inelastic Constitutive Relations for Solids>
ME 478 Combustion
ME 489 Selected Topics in Cellular-Level Transport>
ME 495 Selected Topics in Mechanical Engineering
MMM 497 Design For Manufacture
ME 499 Projects
500 Level
ME 512 Seminar
ME 513 Teaching Practicum (no credit)
ME 590 Research