Mechanical Engineering (ME)

150. Introduction to Modern Mechanical Engineering. (3, may be repeated twice Δ)


160L. Mechanical Engineering Design I. (3)


217. Energy, Environment and Society. (3)


260L. Mechanical Engineering Design II. (3)


301. Thermodynamics. (3)


**302. Applied Thermodynamics. (3)


306. Dynamics. (3)


**317L. Fluid Mechanics. (4)


318L. Mechanical Engineering Laboratory. (4)


**320L. Heat Transfer. (4)


350. Engineering Economy. (3)


352L. Materials Laboratory. (1)


353L. Fluid Mechanics Lab. (1)


354L. Heat Transfer Laboratory. (1)


357. Introduction to Mechanical Vibrations. (3)


360L. Mechanical Engineering Design III. (3)


**365. Heating, Ventilating and Air Conditioning Systems. (3)


370L. Engineering Materials Science. (4)


**380. Analysis and Design of Mechanical Control Systems. (3)


400 / 500. Numerical Methods in Mechanical Engineering. (3)


401 / 501. Advanced Mechanics of Materials. (3)


404 / 504. Computational Mechanics. (3)


405 / 505. High Performance Engines. (3)


406L. Formula SAE Racecar Design. (4)


407. Formula SAE Racecar Fabrication Lab. (3)


408. Formula SAE Racecar Test Lab. (3)


416 / 516. Applied Dynamics. (3)


418 / 518. Foundations of Microsystems Design. (3)


419 / 519. Advanced Micro- and Nanosystems Engineering [Theory, Fabrication, and Characterization of Nano and Microelectromechanical Systems (NEMS/MEMS)]. (4)


429 / 529. Gas Dynamics. (3)


435 / 535. Introduction to Computational Fluid Dynamics. (4, may be repeated once Δ)


436 / 536. Rotor Aerodynamics. (3)


451–452. Undergraduate Problems. (1-3 to a maximum of 6 Δ; 1-3 to a maximum of 6 Δ)


459. Mechanical Engineering Design IV. (3)


460. Mechanical Engineering Design V. (4)


461–462 / 561–562. Special Topics. (1-4, no limit Δ; 1-4, no limit Δ)


463. Undergraduate Honors Thesis. (3)


471 / 571. Advanced Materials Science. (3)


472 / 572. Aerospace Structures and Materials. (3, may be repeated twice Δ)


480 / 580. Dynamic System Analysis. (3)


481 / 581. Digital Control of Mechanical Systems. (3)


482 / 582. Robot Engineering. (3)


486 / 586. Design for Manufacturability. (3)


500 / 400. Numerical Methods in Mechanical Engineering. (3)


501 / 401. Advanced Mechanics of Materials. (3)


504 / 404. Computational Mechanics. (3)


505 / 405. High Performance Engines. (3)


512. Introduction to Continuum Mechanics. (3)


516 / 416. Applied Dynamics. (3)


518 / 418. Foundations of Microsystems Design. (3)


519 / 419. Advanced Micro- and Nanosystems Engineering [Theory, Fabrication, and Characterization of Nano and Microelectromechanical Systems (NEMS/MEMS)]. (4)


520. Advanced Thermodynamics I. (3)


521. Thermal System Design and Optimization. (3)


529 / 429. Gas Dynamics. (3)


530. Theoretical Fluid Mechanics I. (3)


534. Boundary Layers. (3)


535 / 435. Introduction to Computational Fluid Dynamics. (4, may be repeated once Δ)


536 / 436. Rotor Aerodynamics. (3)


540. Elasticity. (3)


542. Deformation Analysis and Modeling. (3)


551–552. Problems. (1-3 to a maximum of 6 Δ; 1-3 to a maximum of 6 Δ)


559. Design Project. (3)


561–562 / 461–462. Special Topics. (1-4, no limit Δ; 1-4, no limit Δ)


571 / 471. Advanced Materials Science. (3)


572 / 472. Aerospace Structures and Materials. (3, may be repeated twice Δ)


580 / 480. Dynamic System Analysis. (3)


581 / 481. Digital Control of Mechanical Systems. (3)


582 / 482. Robot Engineering II. (3)


586 / 486. Design for Manufacturability. (3)


591–592. Seminar. (0-1, no limit Δ; 0-1, no limit Δ)


594. Introduction to Space Situational Awareness. (3)


595. Orbital Mechanics. (3)


596. Spacecraft Attitude Dynamics and Control. (3)


597. Small Spacecraft Design I. (3)


599. Master's Thesis. (1-6, no limit Δ)


634. Turbulent Flows. (3)


699. Dissertation. (3-12, no limit Δ)


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Office of the Registrar

MSC11 6325
1 University of New Mexico
Albuquerque, NM 87131

Phone: (505) 277-8900
Fax: (505) 277-6809