| | Engineering Systems and Computing | | |
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| School | University of Guelph | | |
| Location | Guelph, ON, Canada | | |
| School Type | University | | |
| School Size | Full-time Undergraduate: 23,926
Full-time Graduate: 3,035 | | |
| Degree | Bachelor | | |
| Honours | | | |
| Co-op | | | |
| Length | 5 Year(s) | | |
| Entry Grade (%)* | 84% to 89% | | |
| Prerequisites | - Grade12 English
- Grade12 Calculus and Vectors
- 2 of Grade12 Chemistry or Grade12 Physics
- Grade12 Advanced Functions
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| Prerequisites Notes | Applicants are required to have an Ontario Secondary School Diploma (OSSD), with English (ENG4U) Advanced Functions (MHF4U), Calculus and Vectors (MCV4U), Chemistry (SCH4U), Physics (SPH4U), and 1 additional 4U or 4M course.
Students applying to the University directly from high school will be considered for admission to Co-op. Normally, a minimum average of 80% is required for consideration, but exact cut-offs are determined by the quantity and quality of the applicant pool as well as space available in each program. All students, including International applicants, are encouraged to explore Co-operative Education as an option. | | |
| Cost |
The total tuition and fees for the Fall 2022 and Winter 2023 semesters. | | |
| Scholarships | | | |
| Description | Engineering Systems and Computing - the application of systems thinking and interdisciplinary engineering to solve complex, multi-faceted, meaningful problems by analyzing, modelling, and designing computer- based systems, including biomedical applications, robotics, artificial intelligence, and human-centred computing. These systems typically include a heterogeneous set of hardware and software components integrated into a unified framework to achieve an optimal, computer-controlled system solution. Systems thinking enables the understanding and modelling of industrial and societal processes as interconnected elements working together to serve a larger purpose. Graduates from Engineering Systems and Computing are systems thinkers who analyze, model, and design engineering systems with the aid of modern computational tools. Students in this major have the opportunity to take electives in areas such as control systems, biomedical, robotics, mechatronics, embedded systems, internet of things, software-hardware systems, and human-centred computing. | | |
| Next Steps | Request Info | | |