Appendix A
Admission Criteria for Students
Without an Undergraduate Engineering Degree (preliminary)
Graduate Student Applicants without an ABET-accredited engineering degree must develop competence and demonstrate ability in the fundamentals of engineering. This is accomplished by completing, or having taken the equivalent of, a set of courses in one of the engineering disciplines. If appropriate, a number of courses drawn from two or more such disciplines could be considered. These courses can be taken in post-baccalaureate or undergraduate status.(NOTE: These courses may have prerequisites — see UK Bulletin) [actually linked to grad school bulletin.]
| Mechanical Engineering | ||||||||
| ME 151 | Manufacturing Engineering | |||||||
| ME 220 | Engineering Thermodynamics | |||||||
| ME 440 | Controls | |||||||
| ME 330 | Fluid Mechanics | |||||||
| ME 325 | Heat Transfer | |||||||
| ME 344 | Mechanical Design | |||||||
| Electrical Engineering | ||||||||
| EE 211 | Circuits I | |||||||
| EE 221 | Circuits II | |||||||
| EE 280 | Design of Logic Circuits | |||||||
| EE 380 | Computer Organization | |||||||
| EE 415 | Electromechanics | |||||||
| EE 421 | Signals & Systems I | |||||||
| EE 461 | Intro. to Electronics | |||||||
| EE 468 | Fields & Waves | |||||||
|
||||||||
| Chemical Engineering | ||||||||
| CME 205 | Process Principles I | |||||||
| CME 210 | Process Principles II | |||||||
| CME 320 | Engineering Thermodynamics | |||||||
| CS 221 | Computer Science for Engineers | |||||||
| ME 330 | Fluid Mechanics | |||||||
| CME 415 | Separation Processes | |||||||
| CME 425 | Heat & Mass Transfer | |||||||
| CME 420 | Process Modeling | |||||||
| CME 550 | Reactor Design | |||||||
"Instructions for the Preparation of Theses and Dissertations"
FINAL EXAMINATION RECOMMENDATION
(Master’s Degrees and Specialist in Education)
Send this form, accompanied by an Approval Sheet (if thesis has been written), to the Graduate School no later than 2 weeks before the date of the examination.