| Course | Title | Credits |
|---|---|---|
| General Requirements | ||
| General Education | 26 | |
| Required Courses 1 | ||
| MATH 2640 | Calculus and Analytic Geometry I | 4 |
| MATH 2740 | Calculus and Analytic Geometry II | 4 |
| MATH 2840 | Calculus and Analytic Geometry III | 4 |
| MATH 3630 | Differential Equations I | 3 |
| MATH 4030 | Statistical Methods with Applications | 3 |
| CHEMSTRY 1450 | Chemistry for Engineers | 5 |
| PHYSICS 2240 | General Physics I | 4 |
| PHYSICS 2340 | General Physics II | 4 |
| GENENG 1030 | Introduction to Engineering Projects | 1 |
| GENENG 2030 | Engineering Modeling and Design | 3 |
| GENENG 2820 | Engineering Economy | 2 |
| GENENG 2130 | Engineering Mechanics-Statics | 3 |
| GENENG 2230 | Engineering Mechanics-Dynamics | 3 |
| GENENG 2340 | Mechanics of Materials | 4 |
| Choose one of the following: | 3-7 | |
| Applications of Electrical Engineering | ||
| Circuit Modeling I and Circuit Modeling II | ||
| Professional Engineering Courses 1, 2 | ||
| MECHENG 2630 | Thermodynamics | 3 |
| MECHENG 3030 | Mechanical Vibrations | 3 |
| MECHENG 3040 | Engineering Materials | 3 |
| MECHENG 3230 | Manufacturing Processes | 3 |
| MECHENG 3300 | Fluid Dynamics | 3 |
| MECHENG 3330 | Design of Machine Elements | 3 |
| MECHENG 3430 | Introduction to Computational Methods | 3 |
| MECHENG 3640 | Heat Transfer | 3 |
| MECHENG 3720 | Measurements and Instrumentation Laboratory | 3 |
| or BME 3230 | Introduction to Medical Instrumentation | |
| MECHENG 3830 | Mechanisms and Machines | 3 |
| MECHENG 4330 | Automatic Controls | 3 |
| MECHENG 4720 | Thermal Systems Laboratory | 2 |
| MECHENG 4730 | Thermo-Fluid Systems Design | 3 |
| MECHENG 4930 | Senior Design Project (o) | 3 |
| or GENENG 4930 | Interdisciplinary Senior Design | |
| Technical Electives 1 | ||
| Select 6 credits of the following: | 6 | |
| Structural Steel Design with LRFD 3 | ||
| Wind and Solar Systems Design | ||
| Linear Algebra 3 | ||
| Applied Statistics 3 | ||
| Design, Fabrication, and Simulation of MEMS | ||
| Biomechanics | ||
| Biofluidics | ||
| Biomaterials | ||
| Engineering Management | ||
| Quality Engineering | ||
| Engineering Continuous Improvement | ||
| Design & Control of Manufacturing Systems | ||
| Noise Control | ||
| Advanced Materials | ||
| Failure of Materials | ||
| Composite Materials | ||
| Biomedical Engineering | ||
| Power Plant Design | ||
| Heat Transfer Applications | ||
| Computational Fluid Dynamics | ||
| Energy Systems Design | ||
| Internal Combustion Engine Design | ||
| Mechanical Design of Internal Combustion Engines | ||
| Environmental Control Design | ||
| Mechanical Systems Design | ||
| Computational Methods in Engineering | ||
| Finite Element Method | ||
| Advanced Manufacturing Processes | ||
| Mechatronics | ||
| Advanced Vibrations | ||
| Computer-Aided Engineering | ||
| Current Topics in Engineering | ||
| Engineering Communications 3 | ||
| Practical Experience | ||
| Select one additional course from the following or one additional Mechanical Engineering Technical Elective course listed above: | 1-3 | |
| Mechanical Engineering Cooperative Education | ||
| Mechanical Engineering Internship | ||
| Undergraduate Research | ||
Technical Elective Course | ||
| Total Credits | 124-130 | |
- 1
All courses required by the Mechanical Engineering B.S. offered by the College of EMS in the 1000, 2000, and 3000-level must be completed with a grade of “C-” or better
- 2
(minimum 2.0 G.P.A. required)
- 3
This course is intended for Accelerated Bachelor's to Master's students only