X. Degree Programs
Bachelor of Engineering [B.Eng.]
Biological Engineering Program Regular and Co-op (BIOE/BIOE:C)
School of Engineering, College of Physical and Engineering Science
Students interested in problems requiring the application of knowledge from both the biological sciences and engineering will
find a challenge as a Biological Engineer. This field of engineering relates to the control of technological processes with
the aim of enhancing human, animal and plant life. The program encompasses the technologies of biotechnology, waste management,
food engineering, and ergonomics. For example, a Biological Engineer concentrating on biotechnology might design and manage
bioreactors to improve their productivity. A career in Biomedical Engineering, which requires graduate work beyond the Bachelor's
degree, involves designing instruments and diagnostic techniques to be used in the practice of medicine, developing prosthetic
devices, and applying engineering techniques to the study of physiological systems.
Major (Honours Program)
Semester 1 - Regular or Co-op
| CHEM*1040 |
[0.50] |
General Chemistry I |
| CIS*1500 |
[0.50] |
Introduction to Programming |
| ENGG*1100 |
[0.75] |
Engineering and Design I |
| MATH*1200 |
[0.50] |
Calculus I |
| One of: |
| ENGG*1210 |
[0.50] |
Engineering Mechanics I |
| HIST*1250 |
[0.50] |
Science and Technology in a Global Context |
|
| Note: ENGG*1210 or HIST*1250 must be taken in semester 1; the remaining course must be taken in semester 2.
|
Semester 2 - Regular or Co-op
Semester 3 - Regular or Co-op
| COOP*1100 |
[0.00] |
Introduction to Co-operative Education |
| ENGG*2160 |
[0.50] |
Engineering Mechanics II |
| ENGG*2400 |
[0.50] |
Engineering Systems Analysis |
| MATH*2270 |
[0.50] |
Applied Differential Equations |
| One of: |
| BIOL*1070 |
[0.50] |
Discovering Biodiversity |
| BIOL*1090 |
[0.50] |
Introduction to Molecular and Cellular Biology |
|
| One of: |
| ENGG*2100 |
[0.75] |
Engineering and Design II |
| STAT*2120 |
[0.50] |
Probability and Statistics for Engineers |
|
| One of: |
|
|
| Note: ENGG*2100 or STAT*2120 must be taken in semester 3; the remaining course must be taken in semester 4.
|
| Note:ENGG*2120 or ENGG*2230 must be taken in semester 3; the remaining course must be taken in semester 4.
|
Semester 4 - Regular or Co-op
| BIOC*2580 |
[0.50] |
Introduction to Biochemistry |
| ENGG*2450 |
[0.50] |
Electric Circuits |
| ENGG*2660 |
[0.50] |
Biological Engineering Systems I |
| MATH*2130 |
[0.50] |
Numerical Methods |
| One of: |
| ENGG*2100 |
[0.75] |
Engineering and Design II |
| STAT*2120 |
[0.50] |
Probability and Statistics for Engineers |
|
| One of: |
|
|
Semester 5 - Regular or Co-op
Semester 6 Regular / Semester 7 Co-op
| ENGG*3100 |
[0.75] |
Engineering and Design III |
| ENGG*3410 |
[0.50] |
Systems and Control Theory |
| ENGG*3430 |
[0.50] |
Heat and Mass Transfer |
| 1.00 restricted electives |
Semester 7 Regular / Semester 6 Co-op
| ENGG*4390 |
[0.75] |
Bio-instrumentation Design |
| 2.75 restricted electives |
Semester 8 (Winter) - Regular or Co-op
| ENGG*4110 |
[1.00] |
Biological Engineering Design IV |
| ENGG*4280 |
[0.75] |
Digital Process Control Design |
| 1.00 restricted electives |
Restricted Electives (see Program Guide for more information)
A maximum of 1.50 credits at the 1000 level is allowed for elective requirements.
-
2.00 credits in Complementary Studies (Students need to take 0.50 credits from each of the three sub-lists noted in the Program
Guide. The remaining 0.50 credits can be taken from any Complementary Studies sub-list.)
-
0.75 credits in required Design electives
-
1.00 credits in Biological Engineering electives
-
1.00 credits in Free electives
