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. |