Courses with credits listed as "V" have variable credits. Specific number of credits for any one instance of the course are arranged in consultation with the instructor.
| | Course Name |
Cr. |
Prerequisites |
|
| EAS 101 | Engineering Problem Solving | 4 | |
| EAS 115 | Engineering Graphics | 3 | |
| EAS 211 | Statics | 4 | Mth 252, Mth 261 and Ph 221 taken concurrently |
| EAS 212 | Strength of Materials | 4 | EAS 211, Mth 261 |
| EAS 213 | Properties of Materials | 4 | Ch 221 |
| EAS 215 | Dynamics | 4 | EAS 211, Mth 252 |
| EAS 361 | Fluid Mechanics | 4 | EAS 215, Mth 256 taken concurrently |
| EAS 407 | MECOP Seminar | V | Consent of instructor. |
| EAS 410 PFS | Fire Safety Engineering | 4 | Consent of instructor |
|
| ME 199 | Special Studies | 4 | |
| ME 241 | Manufacturing Processes | 2 | EAS 213 |
| ME 241 | Manufacturing Processes Lab | 2 | EAS 213 |
| ME 304 | Energy and Society | 4 | Upperdivision standing. |
| ME 313 | Analysis of Mechanical Components | 4 | EAS 212, Mth 261 |
| ME 314 | Analysis and Design of Machine Elements | 4 | ME 313 |
| ME 321 | Engineering Thermodynamics | 4 | Ph 223, Mth 252 |
| ME 322 | Applied Fluid Mechanics and Thermodynamics | 4 | EAS 361, ME 321. |
| ME 323 | Heat Transfer | 4 | Mth 256, Mth 261, ME 321, EAS 361 |
| ME 351 | Vibrations and System Dynamics | 4 | EAS 215, EAS 361, ECE 241, Mth 256, Mth 261 |
| ME 352 | Numerical Methods in Engineering | 4 | EAS 101, Mth 261. |
| ME 401 | Research | V | |
| ME 404 | Education/Internship Cooperative | V | |
| ME 405 | Reading and Conference | V | |
| ME 406 | Special Projects | V | |
| ME 410 | Selected Topics | V | |
| ME 410 AM | Asymptotic Methods | 4 | |
| ME 410 CL | Controls Lab | 2 | |
| ME 410 CP | Capillary Phenomenon | 4 | |
| ME 410 CR | Corrosion | 4 | |
| ME 410 EP | Electronic Packaging | 4 | |
| ME 410 MEM | MEMS and Microsystems | 4 | |
| ME 410 MF | Microfluidics | 4 | |
| ME 410 SM | Semiconductor Manufacturing | 4 | |
| ME 410 SS | Solid Mechanics | 4 | |
| ME 411 | Engineering Measurement and Instrumentation Systems | 4 | ECE 221, senior standing in engineering. |
| ME 413 | Engineering Material Science | 4 | EAS 213. |
| ME 415 | Advanced Topics in Energy Conversion | 4 | |
| ME 416 | Internal Combustion Engines | 4 | ME 322, ME 323, EAS 361. |
| ME 417 | Gas Turbines | 4 | ME 322. |
| ME 418 | Analysis of Powerplant Cycles | 4 | ME 322 or equivalent and consent of instructor. |
| ME 420 | Thermal Systems Design | 4 | ME 323, EAS 361. |
| ME 421 | Heating, Ventilating, and Air Conditioning | 4 | ME 323. |
| ME 422 | Building Energy Use Analysis and Design | 4 | ME 323, ME 421/521 |
| ME 423 | Fundamentals of Building Science | 4 | ME 421/521. |
| ME 424 | HVAC System Design and Controls | 4 | ME 421, ME 521, and ME 351. |
| ME 425 | Advanced Topics in Building Science | 4 | |
| ME 426 | Applied Solar Energy | 4 | ME 323 or equivalent |
| ME 431 | Pneumatic and Hydraulic Systems | 4 | EAS 361. |
| ME 437 | Mechanical Systems Design | 4 | ME 241, 351, 314. |
| ME 441 | Advanced Fluid Mechanics | 4 | EAS 361. |
| ME 442 | Advanced Heat Transfer | 4 | ME 322, 323. |
| ME 443 | Advanced Engineering Thermodynamics | 4 | ME 321. |
| ME 444 | Combustion | 4 | ME 322, 323. |
| ME 445 | Advanced Topics in Thermal and Fluid Sciences | 4 | |
| ME 446 | Compressible Flow | 4 | ME 322, EAS 361. |
| ME 447 | Transfer and Rate Processes | 4 | ME 323, EAS 361, senior or graduate standing. |
| ME 448 | Applied Computational Fluid Dynamics | 4 | ME 441/541. |
| ME 449 | Thermal Management Measurements | 4 | ME 323, ME 411 |
| ME 450 | Solid Modeling | 4 | Senior or graduate standing in engineering or a closely related field. |
| ME 452 | Control Engineering I | 4 | Upper division ME undergraduate or graduate student; Mth 256; ECE 221; ME 351. |
| ME 453 | Control Engineering II | 4 | ME 452/552. |
| ME 455 | Finite Element Modeling and Analysis | 4 | ME 314; ME 555 requires graduate standing in engineering |
| ME 457 | Introduction to Robotics | 4 | Prerequisites: ME 351 |
| ME 458 | Principles of CNC Machining | 4 | ME 241 and senior standing in Mechanical Engineeering |
| ME 471 | Process Measurement and Control | 4 | ME 411, ECE 201, ECE 221 |
| ME 475 | Joining Processes and Design | 4 | ME 241 or equivalent |
| ME 476 | Material Failure Analysis | 4 | Senior standing in engineering |
| ME 481 | Mechanical Tolerancing | 4 | ME 241, ME 491 (concurrently) |
| ME 487 | Statistical Process Control | 4 | Mth 460 |
| ME 488 | Design of Experiments | 2 | Prerequisite: Stat 451 CM |
| ME 491 | Design Process | 2 | Prerequisites: ME 314, ME 351 |
| ME 492 | Conceptual Design Project | 4 | ME 491 |
| ME 493 | Detailed Design Project | 4 | ME 492 |
| ME 501 | Research | V | Graduate standing |
| ME 503 | Thesis | V | Graduate standing |
| ME 504 | Cooperative Education/Internship | V | Consent of the instructor |
| ME 505 | Reading and Conference | V | Consent of the instructor |
| ME 506 | Special Projects | V | Consent of the instructor |
| ME 507 | Seminar | 1 | Graduate standing |
| ME 510 AM | Asymptotic Methods | 4 | Graduate standing |
| ME 510 AM | Asymptotic Methods | 4 | |
| ME 510 CL | Controls Lab | 2 | |
| ME 510 CP | Capillary Phenomenon | 4 | |
| ME 510 CR | Corrosion | 4 | |
| ME 510 EP | Electronic Packaging | 4 | |
| ME 510 MEM | MEMS and Microsystems | 4 | |
| ME 510 MF | Microfluidics | 4 | |
| ME 510 SM | Semiconductor Manufacturing | 4 | |
| ME 510 SS | Solid Mechanics | 4 | |
| ME 511 | Engineering Measurement and Instrumentation Systems | 4 | ECE 221, senior standing in engineering. |
| ME 513 | Engineering Material Science | 4 | EAS 213. |
| ME 515 | Advanced Topics in Energy Conversion | 4 | |
| ME 516 | Internal Combustion Engines | 4 | ME 322, ME 323, EAS 361. |
| ME 517 | Gas Turbines | 4 | ME 322. |
| ME 518 | Analysis of Powerplant Cycles | 4 | ME 322 or equivalent and consent of instructor. |
| ME 520 | Thermal Systems Design | 4 | ME 323, EAS 361. |
| ME 521 | Heating, Ventilating, and Air Conditioning | 4 | ME 323. |
| ME 522 | Building Energy Use Analysis and Design | 4 | ME 323, ME 421/521 |
| ME 523 | Fundamentals of Building Science | 4 | ME 421/521. |
| ME 510 AM | Asymptotic Methods | 4 | Graduate standing |
| ME 524 | HVAC System Design and Controls | 4 | ME 421/521 and ME 351 |
| ME 524 | HVAC System Design and Controls | 4 | ME 421, ME 521, and ME 351. |
| ME 525 | Advanced Topics in Building Science | 4 | |
| ME 526 | Applied Solar Energy | 4 | ME 323 or equivalent |
| ME 531 | Pneumatic and Hydraulic Systems | 4 | EAS 361. |
| ME 537 | Mechanical Systems Design | 4 | ME 241, 351, 314. |
| ME 541 | Advanced Fluid Mechanics | 4 | EAS 361. |
| ME 542 | Advanced Heat Transfer | 4 | ME 322, 323. |
| ME 543 | Advanced Engineering Thermodynamics | 4 | ME 321. |
| ME 544 | Combustion | 4 | ME 322, 323. |
| ME 545 | Advanced Topics in Thermal and Fluid Sciences | 4 | |
| ME 545 | Advanced Topics in Thermal and Fluid Sciences | 4 | |
| ME 546 | Compressible Flow | 4 | ME 322, EAS 361. |
| ME 547 | Transfer and Rate Processes | 4 | ME 323, EAS 361, senior or graduate standing. |
| ME 548 | Applied Computational Fluid Dynamics | 4 | ME 441/541. |
| ME 549 | Thermal Management Measurements | 4 | ME 323, ME 411 |
| ME 550 | Solid Modeling | 4 | Senior or graduate standing in engineering or a closely related field. |
| ME 551 | Engineering Analysis | 4 | Prerequisite: Graduate Standing |
| ME 552 | Control Engineering I | 4 | Upper division ME undergraduate or graduate student; Mth 256; ECE 221; ME 351. |
| ME 553 | Control Engineering II | 4 | ME 452/552. |
| ME 555 | Finite Element Modeling and Analysis | 4 | ME 314; ME 555 requires graduate standing in engineering |
| ME 557 | Introduction to Robotics | 4 | Prerequisites: ME 351 |
| ME 558 | Principles of CNC Machining | 4 | ME 241 and senior standing in Mechanical Engineeering |
| ME 551 | Engineering Analysis | 4 | Prerequisite: Graduate Standing |
| ME 562 | Engineering Numerical Methods | 4 | ME 352 or equivalent |
| ME 565 | Advanced Finite Element Applications | 4 | ME 455, ME 555, or equivalent |
| ME 571 | Process Measurement and Control | 4 | ME 411, ECE 201, ECE 221 |
| ME 575 | Joining Processes and Design | 4 | ME 241 or equivalent |
| ME 576 | Material Failure Analysis | 4 | Senior standing in engineering |
| ME 581 | Mechanical Tolerancing | 4 | ME 241, ME 491 (concurrently) |
| ME 587 | Statistical Process Control | 4 | Mth 460 |
| ME 588 | Design of Industrial Experiments | 4 | Stat 460 |
| ME 588 | Design of Experiments | 2 | Prerequisite: Stat 451 CM |
| ME 588 | Design of Industrial Experiments | 4 | Stat 460 |
| ME 596 | Design Optimization | 4 | Graduate standing |
| ME 624 | HVAC System Design and Controls | 4 | ME 421/521 and ME 351 |
|
| MSE 381 | Physical Metallurgy | 4 | EAS 213, Ph 213 or 223, Ch 223 |
| MSE 410 DF | Dynamic Fracture | 4 | |
| MSE 410 FM | Fracture Mechanics | 4 | |
| MSE 410 FM2 | Advanced Fracture Mechanics | 4 | |
| MSE 410 MP | Modelling of Materials Processing | 4 | |
| MSE 410 PM2 | Advance Physical Metallurgy | 4 | |
| MSE 410 SL | Solidification | 4 | Senior or graduate standing in engineering |
| MSE 410 SPT | Solid State Phase Transformation | 4 | |
| MSE 410 WR | Wear | 4 | |
| MSE 507 | Materials Seminar | 4 | Graduate standing |
| MSE 510 PD | Phase Diagrams | 4 | Graduate standing or consent of the instructor |
| MSE 510 TM | Thermodynamics of Materials | 4 | |
| MSE 510 DF | Dynamic Fracture | 4 | |
| MSE 510 FM | Fracture Mechanics | 4 | |
| MSE 510 MP | Modelling of Materials Processing | 4 | |
| MSE 510 PM2 | Advance Physical Metallurgy | 4 | |
| MSE 510 SL | Solidification | 4 | Senior or graduate standing in engineering |
| MSE 510 SPT | Solid State Phase Transformation | 4 | |
| MSE 510 WR | Wear | 4 | |
| MSE 513 | Engineering Design for Materials Scientists | 4 | Graduate Standing |
| MSE 515 | Material Testing Methods | 4 | Graduate standing |
| MSE 534 | Phase Diagrams in Metals, Ceramics, and Electronic Materials | 4 | Senior or graduate standing in engineering |
| MSE 547 | Diffusion | 4 | |
| MSE 547 | Diffusion | 4 | |
| MSE 576 | Failure Analysis | 4 | ME-314 or equivalent |
|
