Engineering Physics

The Bachelor of Science in Engineering Physics at Simon Fraser University offers students a rigorous and comprehensive education at the intersection of physics and engineering. This interdisciplinary program is designed to provide a solid foundation in fundamental physics principles, combined with practical engineering skills, enabling graduates to address complex scientific and technological challenges across a wide range of industries. Students in this program will engage with core topics such as classical and quantum mechanics, electromagnetism, thermodynamics, materials science, and applied physics, while also gaining hands-on experience through laboratory work and research projects. The curriculum emphasizes problem-solving, analytical thinking, and innovative design, preparing students for careers in research, development, and engineering design in sectors such as aerospace, electronics, energy, manufacturing, and information technology. In addition to specialized coursework, students have opportunities to participate in collaborative projects, internships, and co-op placements that enhance their technical expertise and professional skills. The program also encourages interdisciplinary learning, with electives available in areas such as computer science, applied mathematics, and engineering management. Graduates of the Engineering Physics program are well-equipped to pursue advanced degrees or enter the workforce as engineering physicists, systems engineers, or technical consultants. The faculty at Simon Fraser University are committed to providing a dynamic learning environment that combines theoretical knowledge with practical application, fostering innovation and scientific discovery. With state-of-the-art laboratories, research facilities, and a strong emphasis on experiential learning, students are prepared to contribute meaningfully to technological advances and sustainable development. The program aims to develop versatile engineers and scientists who can adapt to rapidly evolving technological landscapes and address real-world problems with creativity and technical expertise.

Engineering Physics at Simon Fraser University combines fundamental principles of physics and engineering to prepare students for innovative problem solving and technological advancement.This interdisciplinary program is designed to provide a comprehensive understanding of the physical laws governing modern technology, enabling graduates to pursue careers in research, development, and applied sciences across diverse industries such as aerospace, robotics, renewable energy, and information technology.The curriculum integrates foundational courses in classical mechanics, electromagnetism, thermodynamics, quantum mechanics, and materials science with specialized engineering courses, fostering strong analytical, computational, and experimental skills.Students engage in hands-on laboratory work, design projects, and team-based problem-solving exercises to develop practical skills essential for real-world applications.Throughout the program, students have opportunities to participate in research projects under faculty supervision, allowing them to explore areas such as nanotechnology, photonics, acoustics, and solid-state physics.Its flexible course structure accommodates students aiming for professional engineering accreditation or further academic research. The program emphasizes innovation, critical thinking, and interdisciplinary collaboration, preparing graduates to address complex technical challenges.With state-of-the-art laboratories and research facilities, Simon Fraser University offers an enriching environment for students interested in the intersection of physics and engineering. The Engineering Physics undergraduate degree equips students with a robust scientific foundation combined with engineering applications, fostering a versatile skill set suitable for diverse high-tech careers and advanced academic pursuits.

The Bachelor of Science in Engineering Physics at Simon Fraser University requires students to complete a total of approximately 120 credits to graduate. The program is designed to integrate principles of physics and engineering to prepare students for careers in research, development, and technological innovation. Students must complete foundational courses in mathematics, physics, and chemistry, including calculus, differential equations, general physics, and chemistry to build a strong scientific base. Core engineering courses involve circuits, thermodynamics, materials, and systems modeling, complemented by specialized courses in quantum mechanics, electromagnetism, and solid-state physics. Laboratory work is integral to the curriculum, with practical components emphasizing experimental techniques, data analysis, and instrumentation. The program also includes design projects and interdisciplinary courses to develop problem-solving and teamwork skills. Students are encouraged to participate in co-op placements to gain industry experience, with opportunities in sectors such as electronics, telecommunications, energy, and information technology. Elective courses allow for specialization in areas like photonics, nanotechnology, or renewable energy. A capstone project is typically required in the final year, where students apply their accumulated knowledge to a real-world engineering problem. To ensure academic progression, students must maintain a minimum GPA as specified by the university. The curriculum is periodically reviewed to incorporate emerging technologies and industry standards. Overall, the program aims to produce graduates who are well-equipped to contribute to advancements in engineering and physics through innovative thinking and technical expertise.

Funding options for the Engineering Physics undergraduate program at Simon Fraser University include a variety of financial aid opportunities aimed at supporting students throughout their studies. Scholarships are available based on academic achievement, leadership, and financial need. Merit-based scholarships such as the SFU Entrance Scholarships are awarded to outstanding applicants upon admission, providing significant financial support that can reduce tuition costs. Additionally, in-course scholarships are offered annually to continuing students who demonstrate exceptional academic performance in their Engineering Physics coursework.

Students are encouraged to apply for bursaries, which are need-based financial aid awards that do not have to be repaid and are intended to assist students facing financial challenges. The university also offers work-study programs that allow students to gain practical experience while earning income to support their education. These positions often involve roles within the university, such as research assistantships, laboratory assistants, or administrative support, providing valuable industry-related experience alongside financial benefits.

Furthermore, students can explore government-funded financial assistance programs including provincial provincial student grants and loans that are designed to make higher education more accessible. Canadian citizens and permanent residents may be eligible for government student loans and employer-sponsored scholarships, which can significantly offset the costs associated with an Engineering Physics degree. International students should consider external scholarships and funding opportunities provided by their home countries or international organizations, as Simon Fraser University also offers limited financial aid options for international students.

Students nearing completion of their program may also look into postgraduate funding options, such as research grants or funding from industries related to engineering and physics, which support students pursuing specialized research or graduate studies in related fields.

Overall, the university’s comprehensive financial support system aims to provide accessible pathways for students to finance their education in Engineering Physics, reducing the financial barriers that might otherwise hinder their academic pursuits and future careers.

Engineering Physics at Simon Fraser University offers students a comprehensive education that combines principles of physics and engineering to prepare graduates for diverse careers in technology, research, and development. The program is designed to provide a strong foundation in fundamental physics, including classical mechanics, electromagnetism, thermodynamics, quantum mechanics, and materials science, alongside core engineering principles such as systems design, electronics, and applied mathematics. This interdisciplinary approach aims to equip students with both theoretical knowledge and practical skills necessary to innovate and solve complex problems in areas like aerospace, renewable energy, instrumentation, and advanced manufacturing.

Students in the Engineering Physics program have opportunities to engage in hands-on learning through laboratory work, design projects, and co-op placements. These experiential components enable learners to apply their academic knowledge in real-world settings, fostering skills in teamwork, communication, and technical project management. The curriculum is carefully structured to incorporate not only foundational science and engineering coursework but also electives that allow students to tailor their education according to their interests and career goals.

The program emphasizes modern technological trends and sustainable practices, encouraging research and innovation in emerging fields such as nanotechnology, photonics, and quantum engineering. Faculty members are active researchers, providing students with mentorship and opportunities to participate in cutting-edge projects. Graduates of the Engineering Physics program at SFU are well-prepared for employment in industry or for advanced studies in graduate or professional schools. The program’s strong links to local industries, including technology companies and research institutions, facilitate networking and career placement for students.

Overall, SFU's Engineering Physics program aims to develop well-rounded engineers and scientists who are capable of addressing complex technological challenges and contributing to societal advancement through innovation, research, and leadership. Students benefit from SFU’s collaborative, forward-thinking academic environment, state-of-the-art facilities, and commitment to experiential learning and community engagement.