Physics (Applied and Industrial)

The Bachelor of Science in Physics (Applied and Industrial) at the University of Regina offers students the opportunity to explore the fundamental principles of physics while focusing on practical applications and industrial relevance. This interdisciplinary program is designed to provide a solid foundation in classical and modern physics, complemented by specialized courses that prepare graduates for careers in technology, engineering, research, and industry. Throughout the program, students will engage in hands-on laboratory work, research projects, and industry internships that foster critical thinking, problem-solving skills, and technical expertise. The curriculum covers core topics such as mechanics, electromagnetism, thermodynamics, quantum physics, and materials science, alongside applied courses like instrumentation, computational physics, and industrial processes. Faculty members are actively involved in research and collaborations with industrial partners, ensuring that coursework remains relevant to current technological advancements and industry needs. Graduates of this program are well-equipped to pursue employment in sectors such as manufacturing, renewable energy, electronics, and environmental science, or to continue their education through graduate studies. The program emphasizes experiential learning, technical competence, and innovation, preparing students to contribute meaningfully to technological development and scientific understanding in various applied settings. With access to state-of-the-art laboratories and research facilities, students gain the practical skills necessary to excel in dynamic and evolving industries. Overall, the Physics (Applied and Industrial) program at the University of Regina is committed to delivering a comprehensive educational experience that combines rigorous scientific training with real-world application, supporting students in achieving their academic and professional objectives.

Physics (Applied and Industrial) at the University of Regina is a comprehensive undergraduate program designed to provide students with a solid foundation in the principles and applications of physics, emphasizing practical skills and industrial relevance. This program combines core physics coursework with specialized training in applied physics, enabling students to understand and solve real-world problems across various industries, including manufacturing, energy, telecommunications, and technology development.

Throughout the program, students explore fundamental topics such as classical mechanics, electromagnetism, thermodynamics, quantum physics, and modern physics. In addition to theoretical knowledge, the curriculum emphasizes hands-on laboratory work, experimental techniques, and the use of advanced instrumentation. This practical approach prepares graduates to work effectively in research, development, and technical roles within private companies, government agencies, and research institutions.

A significant feature of the Applied and Industrial Physics program is its focus on problem-solving and applied research. Students engage in projects that involve data analysis, simulation, and the design of experiments, fostering skills that are highly valued in technical careers. The program also offers opportunities for co-op placements, internships, and partnerships with industry, giving students real-world experience and a competitive edge in the job market.

In addition to technical training, the program encourages the development of soft skills such as teamwork, communication, and project management. Students learn to communicate complex scientific concepts clearly and effectively, both orally and in writing, which is essential for collaboration and leadership in technical environments.

Graduates of the Physics (Applied and Industrial) program at the University of Regina are well-prepared for diverse career paths. Many pursue employment opportunities in sectors such as aerospace, electronics, renewable energy, automation, and instrumentation. Others continue their education at graduate or professional schools, specializing further in fields like engineering, applied physics, or scientific research.

The program is supported by modern facilities, laboratories equipped with state-of-the-art instrumentation, and dedicated faculty members with expertise in various areas of physics and engineering. With a curriculum designed to blend theoretical understanding with practical application, the Physics (Applied and Industrial) program at the University of Regina aims to develop highly skilled graduates ready to contribute to technological advancement and innovation in industry and society.

Program requirements for the Bachelor of Science in Physics (Applied and Industrial) at the University of Regina typically include the completion of a set of core courses, electives, and supplementary requirements designed to provide students with a comprehensive understanding of physics principles and their applications in industry. Admission generally requires high school graduation with strong performance in mathematics and science courses, particularly in physics and calculus. Once admitted, students must complete foundational courses such as PHY 100 – Physics and Our Universe, and PHY 101 – Physics I, which introduce fundamental concepts in mechanics, thermodynamics, and waves. Following these, students progress through intermediate courses including PHY 102 – Physics II, focusing on electromagnetism, optics, and modern physics principles.

To advance toward specialization, students are required to undertake courses related to applied physics, such as PHY 250 – Classical Mechanics, and PHY 260 – Electromagnetic Theory, which develop analytical and problem-solving skills vital for industrial applications. In addition to physics courses, students must complete mathematics courses like MATH 101 – Calculus I, and MATH 102 – Calculus II, which underpin their understanding of physical phenomena and analytical techniques. Laboratory components are an essential part of the program, with courses such as PHY 106 – Physics Laboratory I, providing practical experience in experimental procedures, data collection, and analysis.

Electives within the program allow students to tailor their education toward areas like optics, acoustics, materials science, or engineering technologies, preparing them for diverse industrial roles. To graduate, students typically need to earn a minimum number of credits, often around 120 in total, including required core and elective courses. Additionally, interdisciplinary study options, capstone projects, or co-op placements may be incorporated to enhance practical skills and industry readiness.

Throughout the program, students are encouraged to develop critical thinking, collaborative, and communication skills, essential for professional success in applied physics fields. The program aims to produce graduates equipped with both theoretical knowledge and hands-on experience, prepared for careers in research, development, technical consulting, or further graduate studies. Specific program requirements, course sequences, credit allocations, and opportunities for specialization are detailed in the university's official academic calendar and departmental guidelines, which are periodically updated to reflect current industry standards and technological advances.

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Prepare for the program requirements with English Online by the British Council.

• ✔️ Flexible study schedule
• ✔️ Experienced teachers
• ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

Enroll in the course

The University of Regina offers a comprehensive range of financing options for students enrolled in the Physics (Applied and Industrial) program. Tuition fees vary depending on the student's residency status, with domestic students benefiting from lower rates compared to international students. For the 2023-2024 academic year, the approximate tuition fee for domestic students is CAD 7,000 per year, while international students may pay approximately CAD 20,000 annually. In addition to tuition, students should budget for ancillary fees such as student services, health insurance, and laboratory costs.

The university provides several scholarship opportunities aimed at supporting students in their academic pursuits. Merit-based scholarships are available for high-achieving students, with awards ranging from CAD 1,000 to CAD 5,000 annually. Need-based bursaries are also offered to assist students facing financial challenges, with eligibility determined by financial need assessments submitted through the university’s financial aid office. Furthermore, the university promotes access to the Saskatchewan Student Grant and Canada Student Grant programs, which provide additional monetary support based on financial circumstances.

Students are encouraged to explore external funding sources, including government and private sector scholarships, internships, and sponsorships related to physics and industrial applications. The University of Regina also offers work-integrated learning opportunities such as co-operative education (co-op) programs, which enable students to gain paid industrial experience while studying, thereby helping to offset educational costs.

Financial aid applications must be submitted by predetermined deadlines, typically in the fall semester for the upcoming academic year. All students are advised to complete the Free Application for Federal Student Aid (FAFSA) and to consult with the university’s financial aid office for personalized assistance and guidance. Payment plans are available, allowing students to spread out tuition payments across the academic semester. Additionally, the university provides resources for financial literacy, helping students efficiently manage their finances during their studies.

International students may be eligible for specific scholarships and may be encouraged to seek external funding. They should also consider part-time employment opportunities on campus, subject to visa regulations. Overall, the University of Regina's financial support programs aim to make the Physics (Applied and Industrial) program accessible and affordable, ensuring students can focus on their educational and research goals without undue financial stress.

The Applied and Industrial Physics program at the University of Regina is designed to equip students with a comprehensive understanding of physics principles and their practical applications in various industrial settings. The curriculum combines core physics coursework with specialized electives that focus on applied aspects such as materials, manufacturing, electronics, and instrumentation. This interdisciplinary approach prepares graduates to engage effectively in research, development, and technical roles across multiple industries including manufacturing, electronics, energy, and more.

Students in this program benefit from a blend of classroom instruction, laboratory work, and hands-on project experience, fostering both theoretical knowledge and practical skills. The program emphasizes problem-solving, critical thinking, and technical proficiency, ensuring graduates are well-prepared to meet the demands of modern industry. Faculty members are researchers and professionals with expertise in applied physics fields, actively engaged in research projects that often collaborate with local industries, providing students with real-world learning opportunities.

The Applied and Industrial Physics program may include options for co-operative education or internships, enabling students to gain valuable industry experience and build professional networks before graduation. This practical exposure enhances employability and helps bridge the gap between academic learning and industry needs. Graduates of the program have opportunities in various sectors such as electronics manufacturing, energy systems, materials engineering, and industrial automation.

The program ultimately aims to produce adaptable graduates who possess not only a solid foundation in physics but also the technical skills required for innovation and problem-solving in industrial contexts. The University of Regina’s approach to this program reflects its commitment to experiential learning and preparing students for successful careers in science and technology industries. Admission typically requires a strong background in mathematics and physics at the high school level, with options for advanced standing for students with relevant post-secondary coursework.