A foundation in mathematics, chemistry, and physics is required for the study of chemical engineering. Fundamental principles related to the transformation of matter and energy are developed in subjects including thermodynamics, fluid flow, separations, heat and mass transfer, reactor design, and chemical process design. Undergraduate electives are available in biopharmaceutical engineering, energy and fuels, environmental engineering, and materials engineering and nanotechnology. A program is also available to fulfill pre-medical requirements simultaneously with requirements for the B.S. in chemical engineering.
The educational objectives of the chemical engineering program state that graduates will:
- Excel in their chosen career pathways, as practicing chemical engineers or through the pursuit of advanced technical or professional degrees.
- Impact their profession through effective leadership, communication, teamwork, and through creative solution strategies to address global and societal issues.
- Apply their engineering training to contribute to the health, safety, environmental and economic well-being of their communities.
- Seek out continuing education, professional development and career advancement opportunities.
The following curriculum meets requirements for the B.S. in chemical engineering, provided the student satisfies the graduation requirements listed earlier.
Each student must complete the following:
I. Intellectual Inquiry in Arts and Creativity
II. Intellectual Inquiry in the Humanities
III. Intellectual Inquiry in the Social Sciences
IV. Intellectual Inquiry in the Natural, Physical, and Mathematical Sciences
V. Composition and Communication I
VI. Composition and Communication II
VII. Quantitative Foundations
VIII. Statistical Inferential Reasoning
IX. Community, Culture and Citizenship in the USA
Graduation Composition and Communication Requirement (GCCR)
Graduation Composition and Communication Requirement hours (GCCR): 3
Subtotal: Premajor Requirements: 43
Subtotal: Major hours: 58
In addition to the premajor and major requirements, students must complete the following:
Totaling three or more credit hours for each course.
Students must select four courses, as follows:
- One chemical engineering elective: (CME 395 *, CME 404G , CME 505 , CME 515 , CME 523 , CME 542 , CME 552 , CME 554 , CME 556 , CME 570 , CME 573 , CME 580 , CME 599 .)
- One science/math elective (totaling 3 or more credit hours**) that is not a more elementary version of a required course.
- Math (MA 321 , MA 322 , MA 416G , MA 432G , MA 433G , MA 471G , MA 481G )
- Chemistry (CHE 226 , CHE 250 , CHE 510 and above)
- Biology (BIO 148 and above)
- Physics (PHY 241 and above)
- Other courses by approval of Director of Undergraduate Studies
- One engineering elective (level 300 and above) that does not significantly duplicate content in a core chemical engineering course (e.g., ME 330 ) or a CME elective (CME 395 and above).
- One chemical engineering elective (CME 395 and above) or one engineering elective (level 300 and above) or one science/math elective as described above.
*CME 395 (3 credits) can be used to satisfy only one elective requirement.
** Students may combine multiple qualifying courses that total 3 credits (e.g. pre-medical students may wish to combine PHY 241 , PHY 242 and CHE 233 ).
Subtotal: Engineering/Science Electives: 12