BIOMEDICAL ENGINEERING ADMISSION INFORMATION
The most up-to-date information and full description of each course in the program can be found in the Undergraduate Course Calendar (www.torontomu.ca/calendar/) under the Biomedical Engineering program: Undergraduate Calendar » Undergraduate Programs » Biomedical Engineering
Administered by the Department of Electrical, Computer, and Biomedical Engineering. The Biomedical Engineering BEng Degree Program is accredited by the Canadian Engineering Accreditation Board.
Four years of study following Grade 12 U/M graduation.
The basis of admission to Toronto Metropolitan's undergraduate engineering programs is the Ontario Secondary School Diploma (OSSD) or equivalent with six grade 12 U/M courses including competitive grades in the prerequisite subjects: English (ENG4U/EAE4U), Calculus and Vectors (MCV4U), Advanced Functions (MHF4U), Chemistry (SCH4U), and Physics (SPH4U). Admission is based on competitive grades in program-specific subject requirements and competitive overall admission averages.
How To Apply For Admission
Application to Toronto Metropolitan University is completed online through the Ontario Universities' Application Centre (www.ouac.on.ca).
BIOMEDICAL ENGINEERING PROGRAM OVERVIEW
Toronto Metropolitan's Biomedical Engineering program is one of the first standalone undergraduate Biomedical Engineering programs in Canada. Biomedical engineering is an innovative field that integrates physical, chemical, mathematical and computational sciences and engineering principles to study biology, medicine, behaviour, and health.
The Faculty of Engineering and Architectural Science (FEAS) through the Department of Electrical, Computer, and Biomedical Engineering offers the BEng in Biomedical Engineering four-year degree program. The Bachelor of Engineering, Biomedical Engineering program is accredited by the Canadian Engineering Accreditation Board (CEAB). Our Biomedical Engineering program aims to take advantage of the strategic location of Toronto Metropolitan University in proximity to Toronto's Discovery District and seven world-class hospitals.
The Department of Electrical, Computer, and Biomedical Engineering in collaboration with the Departments of Aerospace Engineering, Biology, Chemical Engineering, Chemistry, Physics, Computer Science, Industrial and Mechanical Engineering, and Mathematics at Toronto Metropolitan University will deliver the curriculum.
According to the working definition of the National Institutes of Health (NIH), biomedical engineering integrates physical, chemical, mathematical and computational sciences and engineering principles to study biology, medicine, behaviour, and health. It advances fundamental concepts, creates knowledge from the molecular to the organ system levels, and develops innovative biologics, materials, processes, implants, devices and informatics approaches for the prevention, diagnosis, and treatment of disease; for patient rehabilitation; and for improving health.
The Biomedical Engineering program has been developed to benefit from, enhance and expand the multidisciplinary collaboration among the various engineering and science programs at Toronto Metropolitan; to attract more students of higher quality to the university and retain them, as well as enhance the reputation of engineering education at Toronto Metropolitan. It will offer students excellent opportunities to build strong backgrounds in biomedical engineering and benefit from the collaborative interdisciplinary relationships between engineering and life sciences, being key strategic areas of strength at FEAS, Toronto Metropolitan. The Faculty has expertise in almost all of the areas of biomedical engineering. At this point the expertise is primarily devoted to the research activities of the faculty members.
This program is run within the framework of engineering programs at Toronto Metropolitan. As with all degree programs associated with engineering, students are initially admitted into the common first year for engineering. During the second year students will study fundamental courses in electronic circuits, biomaterials, cell biology, physiology, engineering algorithms, digital systems, statics and mechanics of materials. In third year the students will focus in microprocessor systems, fluid mechanics, biomedical transducers, bioinformatics, biomechanics, biostatistics, signals and systems, control systems, and biomedical instrumentation. In the fourth year, the students will study a range of state-of-the-art topics in biomedical engineering, and will also be involved in a Capstone Design Project.
CAREERS IN BIOMEDICAL ENGINEERING
There is a growing need for engineers trained in the biomedical sciences. Biomedical engineers are employed in industry, in hospitals, in research facilities of educational and medical institutions, in teaching, and in government regulatory agencies. They often serve a coordinating or interfacing function, using their background in both the engineering and medical fields. In industry, they may create designs where an in-depth understanding of living systems and of technology is essential. They may be involved in performance testing of new or proposed products. Government positions often involve product testing and safety, as well as establishing safety standards for devices. In the hospital, the biomedical engineer may provide advice on the selection and use of medical equipment, as well as supervising its performance testing and maintenance. They may also build customized devices for special health care or research needs. In research institutions, biomedical engineers supervise laboratories and equipment, and participate in or direct research activities in collaboration with other researchers with such backgrounds as medicine, physiology, and nursing. The number of biomedical engineering jobs will climb almost twice as fast as the overall engineering discipline average for a 26.1 percent gain by 2012, according to the U.S. government's new long-range forecast.
First Year Transition Program: The objective of the first year transition program is to provide students, who may need more time to adapt to the demanding university curriculum, with an immediate opportunity to upgrade their Academic Standing. In the second semester, Phase I of the transition program offers all first semester core courses: CHY 102, MTH 140, MTH 141, and PCS 211 in parallel with the second semester regular program courses. Students who have failed and/or are missing any one of these courses at the end of the first semester are required to upgrade their Academic Standing through enrolling in the transition program. During the condensed Spring semester (May-July) Phase II of the transition program offers all second semester core courses: AER 222, BME 100, CHE 200, CHY 211, CPS 125, CVL 207, ELE 202, MEC 222, MTH 240, MTL 200, and PCS 125. These courses represent a repeat of the second semester regular program courses that were not taken by students enrolled in Phase I of the transition program. These courses will be offered subject to adequate enrolment.
At the completion of the transition program, successful transition program students will be promoted to the second year of the Biomedical Engineering program, without losing an academic year.
Highly innovative and proactive retention strategies play an important role in helping students build the skills for success in a demanding engineering curriculum. Through the First-Year Engineering Office, the Faculty of Engineering, Architecture and Science has incorporated the Early Intervention Program into the first-year engineering experience. At the semester's mid-point, students who are failing courses in their core curriculum are identified and encouraged to attend an interview with the First-Year Engineering Program Director/Academic Advisor and/or the Student Counsellor. Together, the student and the academic support team members discuss options to help reduce the chances of academic failure.
COMMUNICATIONS PROFICIENCY AND WRITING SKILLS
All new engineering students are automatically enrolled in CEN 199: Writing Skills.
CEN 199 is graded on a Pass/Fail basis, and is used to track the results of the Writing Skills Test (WST) and/or Ryerson Test of English Proficiency (RTEP).
All students admitted into engineering, except those who wrote the RTEP and achieved a grade B' or higher, are required to write the mandatory Writing Skills Test (WST) during Orientation Week. Students who pass the WST (by achieving a grade B' or higher) or the RTEP (by achieving a grade B' or higher) will receive a PASS in CEN 199 and therefore may enrol in the lower level liberal studies course of their choice (subject to availability).
Students who do not pass the WST, or achieved C' level remedial pass on the RTEP, will receive an INP (In Progress Grade) in CEN 199 and will be required to enrol in one of LNG 111, LNG 112, LNG 113, or LNG 121 as their first-year lower level liberal studies course. These courses, which count towards lower level liberal studies requirements, are writing-intensive humanities and social science courses designed to give students the opportunity to strengthen their foundations in communication. These students will then have three additional opportunities to write and pass the WST:
- In May, following Semester 2.
- During Orientation Week prior to Semester 3.
- In May, following Semester 4.
A PASS in CEN 199: Writing Skills is required to enrol in all third-year engineering courses. Students with a grade of INP in CEN 199 will not be allowed to enrol in any third-year engineering course.
Detailed information is available from the First-Year and Common Engineering Office. Room ENG 377 Telephone: 416-979-5000 ext. 4261.
If you're a full-time student in your third year of study, you may be eligible to enrol in the optional co-operative internship program (see the eligibility criteria below). Upon successful enrolment in the program and after securing an approved co-op job, you're required to spend a period of 8-16 consecutive months in a work placement. After completing your co-operative internship work placement, you will return to Toronto Metropolitan University to complete your final year of study. Enrolment in the co-operative internship extends the undergraduate program length to five years.
Note: The co-operative internship program is undergoing some major improvements. Stay tuned for further information.
Eligibility Criteria (Students need to meet all the criteria listed below by the specified deadlines.): (Effective AY 2019/2020).
|All 1st and 2nd year courses (excluding liberals)
|All courses up to 5th semester (excluding liberals)
|All technical courses up to 6th semester courses (excluding liberals)
For any questions about the co-operative internship program admission application process, please contact: Yvonne Cordwell, ENG478, <firstname.lastname@example.org>
This option provides students with a solid foundation in innovation and entrepreneurship theory as well as the immersive experience of advancing and shaping an idea into a business. The lecture courses cover principles of engineering economics, entrepreneurship and innovation management, and technology based new venture creation. The practicum will guide students through the process of identifying a new business concept, developing their technology, and preparing their business for market readiness. For eligibility, registration and course information see Optional Specialization in Engineering Innovation and Entrepreneurship (OS EIE).
Students can enrich their studies and hone their management skills with the Optional Specialization in Management Sciences. Courses within the optional specialization cover four major areas in management sciences: Strategic Engineering Management, Operations Management/Operations Research, Finance, and Organizational Behaviour. For eligibility, registration, and course information see Optional Specialization in Management Sciences (OS MS).
THE G. RAYMOND CHANG SCHOOL OF CONTINUING EDUCATION CERTIFICATES
Undergraduate students wishing to pursue a continuing education certificate program should be aware of possible restrictions. Please refer to the Certificate Registration section of the Curriculum Advising site for complete details.