Bachelor of Engineering – Mechanical Systems Engineering (International Students)

Bachelor of Engineering – Mechanical Systems Engineering (International Students) only accepts applications from International Students.

The Bachelor of Engineering in Mechanical Systems Engineering (MSE) program offers a dynamic pathway to a career across various industries, including environmental control, renewable energy, robotics, and manufacturing. Accredited by the Canadian Engineering Accreditation Board (CEAB), the program prepares students for professional engineering careers through mandatory work experience and a professional practice exam.

Students explore mechanical, industrial, and control engineering, learning to design complex, computer-controlled mechanical systems, such as automated manufacturing systems with mechanical components, actuators, sensors, and robots. A project-based approach builds technical and business skills, focusing on real-world problem-solving, project management, and environmental protection.

The program includes twelve months of paid co-op opportunities, providing valuable industry experience. After two years, students can choose to specialize in Joining or Welding, gaining interdisciplinary knowledge in welding processes, engineering metallurgy, metal additive manufacturing, and robotics. This major, coupled with hands-on learning in advanced labs, prepares graduates for roles in welding and joining, with the opportunity to pursue an International Welding Engineer qualification.

Admission Requirements

• Ontario Secondary School Diploma (OSSD), or equivalent, OR 19 years of age or older.
• For students with transcripts from outside of Canada, a comprehensive course-by-course credential evaluation is required.

What You’ll Learn

• Apply university-level mathematics, sciences, and engineering principles to solve mechanical system problems.
• Use critical thinking to analyze and solve complex engineering problems with research-based conclusions.
• Conduct investigations in mechanical, manufacturing, and control systems using research, experiments, and data analysis to reach valid conclusions.
• Transform ideas into product definitions that meet customer needs while considering health, safety, standards, and societal factors.
• Design, simulate, and model mechanical systems to meet product and process specifications.
• Select and use appropriate engineering tools for modeling, simulation, and data management, while considering their limitations.