Bachelor of Applied Science in Engineering Science - Robotics Engineering in Toronto Canada | University of Toronto

Renowned as one of the world's premier engineering programs, Engineering Science (EngSci) offers an academically rigorous curriculum for students seeking exceptional challenges.
During the initial two years, you'll dive deep into core subjects including engineering fundamentals, mathematics, sciences, computing, and humanities. The final two years allow specialization through eight major options for focused, advanced study. Our program fosters a tight-knit community of high-achieving peers, cultivating a distinctive and stimulating educational atmosphere.
With specialized majors, interdisciplinary minors and certificates, plus distinctive professional pathways, you can tailor your U of T Engineering education to align with your evolving interests throughout your studies. This academic adaptability, combined with diverse curricular and extracurricular options, ensures you'll graduate with engineering expertise, professional assurance, and a global outlook to tackle intricate problems.
Your U of T Engineering journey includes accumulating at least 600 hours of hands-on experience. This guarantees substantial exposure to professional practice before completing your degree. These hours can be completed at any stage and may encompass various activities, from industry placements to research projects. Participation in the Professional Experience Year Co-op Program automatically meets this requirement.
Robotics engineers develop autonomous systems for diverse fields including field operations, healthcare, and advanced manufacturing, designed to operate in complex, real-world settings.
Their work spans groundbreaking technologies like autonomous vehicles, planetary exploration rovers, unmanned aerial systems, and search-and-rescue robots. They pioneer medical innovations such as AI-driven nanobots for cancer treatment, companion robots for elder care, assistive technologies, and transformative biosensors. Their expertise extends to creating adaptive materials, automated production facilities of all scales, and flexible robotic systems for confined industrial spaces.