| Biosystems Engineering, Mechanical Engineering, and Mining Engineering | ||
| EM | 221 | Statics |
| EM | 302 | Mechanics of Deformable Solids |
| EM | 313 | Dynamics |
| ME | 220 | Thermodynamics |
| ME | 330 | Fluid Mechanics |
| EE | 305 | Electrical Circuits |
| Chemical Engineering | ||
| CME | 200 | Process Principles |
| CME | 220 | Computational Tools in Chemical Engineering |
| CME | 320 | Thermodynamics |
| CME | 330 | Fluid Mechanics |
| CME | 415 | Separation Processes |
| CME | 425 | Heat and Mass Transfer |
| Civil Engineering | ||
| EM | 221 | Statics |
| EM | 302 | Mechanics of Deformable Solids |
| CE | 341 | Introduction to Fluid Mechanics |
| CE | 106 | Computer Graphics and Communications |
| CE | 381 | Civil Engineering Materials I |
| Computer Engineering and Electrical Engineering | ||
| EE | 211 | Circuits I |
| EE | 221 | Circuits II |
| EE | 222 | Electrical Engineering Laboratory I |
| EE | 280 | Design of Logic Circuits |
| EE | 281 | Logical Design Laboratory |
| Materials Engineering | ||
| CME | 200 | Process Principles |
| MSE | 201 | Materials Science |
| EM | 221 | Statics |
| EM | 302 | Mechanics of Deformable Solids |
| MSE | 351 | Material Thermodynamics |
| EE | 305 | Electrical Circuits |
| Biomedical Engineering | ||
| There is no undergraduate program in Biomedical Engineering. If a student wishes to pursue graduate work in Biomedical he/she should follow the prescribed courses for the area that most closely fits their interests. For example, a student interested in biomechanics should take the courses listed above for Mechanical Engineers, a student interested in drug delivery should follow the Chemical Engineering path, and a student interested in imaging or signals should take the courses listed for Electrical Engineering. | ||