Health Physics and Radiation Science

The Bachelor of Science in Health Physics and Radiation Science at Ontario Tech University is a comprehensive undergraduate program designed to prepare students for careers in radiation safety, radiation protection, environmental monitoring, and nuclear technology. The program offers a multidisciplinary approach, combining fundamental sciences such as physics, chemistry, biology, and mathematics with specialized courses in radiation physics, radiation protection standards, health physics principles, and radiation instrumentation. Students will gain a thorough understanding of the biological effects of radiation, risk assessment, and regulatory frameworks governing the use of radioactive materials and radiation-emitting devices. The curriculum emphasizes hands-on laboratory experiences, internships, and cooperative education opportunities to ensure students develop practical skills and real-world experience in the field. Graduates of this program are equipped to work in diverse sectors including healthcare, nuclear power generation, environmental monitoring, government agencies, and private industries. The program also provides a solid foundation for students interested in pursuing graduate studies or research in health physics, radiological science, or related disciplines. Throughout their studies, students will be encouraged to stay abreast of latest technological advances, safety protocols, and regulatory changes impacting the radiation safety landscape. Ontario Tech University's state-of-the-art laboratories and partnerships with local industries provide students with valuable exposure to industry standards and practices. Upon program completion, graduates are prepared to contribute effectively to radiation safety programs, manage radiation risks, and support public health and safety initiatives related to radioactive materials. The Bachelor of Science in Health Physics and Radiation Science offers a rigorous, up-to-date education designed to meet the growing demand for qualified professionals in the field of radiation protection and nuclear science.

The Bachelor of Science in Health Physics and Radiation Science at Ontario Tech University prepares students to become experts in the safe and effective use of radiation across various industries, including healthcare, nuclear power, environmental protection, and research. This comprehensive program provides a solid foundation in physics, biology, chemistry, and mathematics, emphasizing the principles of radiation safety, detection, and measurement. Students will learn about the biological effects of radiation, radiation protection standards, and regulatory compliance, equipping them with the knowledge necessary to minimize risks associated with radiation exposure. The curriculum incorporates both theoretical coursework and practical laboratory experiences, allowing students to develop hands-on skills in radiation detection instrumentation, dosimetry, and safety protocols. Additionally, the program offers specialized courses in medical radiation physics, nuclear medicine, and radiobiology, preparing graduates for careers in radiation therapy, medical imaging, or radiation safety management. Collaborative projects, industry placements, and research opportunities are integral parts of the program, fostering real-world experience and professional networking. Graduates of the program will be well-positioned for employment in hospitals, nuclear facilities, environmental agencies, government regulatory bodies, or pursue advanced studies in health physics or related fields. The program emphasizes ethical practices, professional standards, and continuous learning to ensure graduates can contribute effectively to public safety, health care, and scientific advancement in the evolving field of radiation sciences.

Admission to the Health Physics and Radiation Science degree program at Ontario Tech University requires applicants to meet specific academic and language criteria. Prospective students must generally have completed a Ontario secondary school diploma or equivalent, with a strong background in sciences such as physics and chemistry. A minimum overall average is typically required, often around 70-75%, though competitive applicants may need higher scores. English language proficiency is mandatory for international students, with acceptable tests including TOEFL, IELTS, or equivalent, demonstrating proficiency in reading, writing, listening, and speaking.

The program Tuition fees vary annually; domestic students benefit from reduced rates compared to international students. Applicants are encouraged to submit their transcripts, proof of language proficiency, and any relevant extracurricular or work experience related to health sciences and radiation technology. Some prerequisites may include high school courses in mathematics, physics, chemistry, and biology to ensure foundational knowledge for the program’s specialized coursework.

Applicants are recommended to include a personal statement demonstrating their motivation for pursuing health physics and radiation science, highlighting their interest in radiation safety, nuclear technology, medical physics, or related fields. Extracurricular activities, relevant work or volunteer experience, and letters of recommendation can strengthen an application. The selection process considers academic achievement, relevant experience, and potential for success in the program.

Once admitted, students must complete core courses covering radiation physics, health physics principles, radiation safety, radiation detection and measurement, nuclear medicine, and dosimetry. The curriculum integrates theoretical knowledge with practical laboratory and clinical components to prepare graduates for careers in radiation safety management, medical physics, nuclear power plants, or regulatory agencies. Students are also encouraged to participate in research projects and internships to gain real-world experience.

Graduates are expected to meet accreditation standards where applicable and develop competencies in radiation protection, risk assessment, and compliance with health regulations. Program graduates may pursue certifications such as the Certified Health Physicist (CHP) designation or other professional qualifications in radiation safety and nuclear technology. Continued education pathways include advanced degrees in health physics, medical physics, or related disciplines.

Want to improve your English level for admission?

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 Bachelor of Science in Health Physics and Radiation Science at Ontario Tech University offers a comprehensive financial aid and funding options to support students throughout their academic journey. Prospective students are encouraged to explore various sources of financial assistance, including government-sponsored scholarships, bursaries, and grants. Ontario Tech University provides merit-based awards for outstanding academic achievement, which are awarded automatically based on application information or through separate scholarship applications. Additionally, students can access federal and provincial student loan programs designed to help cover tuition fees, living expenses, and other education-related costs. The university also partners with external organizations and industry stakeholders to offer internship stipends and co-op funding opportunities, which not only provide valuable work experience but may also include financial support.

Students are advised to apply early for financial aid, as many scholarships and bursaries have specific deadlines and eligibility criteria. The university’s Financial Aid and Awards Office provides personalized guidance to help students identify suitable funding opportunities and complete application processes efficiently. For international students, additional scholarships and funding programs are available, although eligibility criteria may differ. Moreover, part-time work opportunities on campus are accessible for students seeking supplementary income, allowing them to balance work and studies effectively. It is important to note that tuition fee levels for the program can vary depending on the student’s residency status and year of study, with detailed information available through the university’s financial services website.

Overall, Ontario Tech University is committed to making education accessible and affordable by offering diverse financial resources tailored to meet the needs of its student body. Prospective students should regularly check official university communications for updates on new funding opportunities and changes to existing programs. In conclusion, financing studies for the Health Physics and Radiation Science program involves a combination of scholarships, bursaries, government assistance, work opportunities, and possibly student loans, all aimed at minimizing financial barriers and enabling students to focus on their academic and professional development.

The Bachelor of Science in Health Physics and Radiation Science at Ontario Tech University is a comprehensive undergraduate program designed to prepare students for careers in the fields of radiation safety, nuclear power, medical physics, and environmental protection. The program emphasizes the fundamental principles of physics, biology, and chemistry as they relate to the safe use and management of radiation. Students gain practical experience in radiation detection, measurement, and safety procedures through laboratory work and supervised internships. The curriculum includes courses on radiation physics, health physics principles, radiation protection techniques, nuclear regulatory policies, and medical applications of radiation. Graduates are equipped with the knowledge to assess radiation risks, implement safety protocols, and work in diverse environments such as hospitals, nuclear facilities, research institutions, and governmental agencies. The program collaborates with industry partners and offers opportunities for co-op placements, providing students with valuable work experience that enhances their employment prospects upon graduation. The degree also serves as a foundational step for those interested in pursuing advanced studies or certifications in radiation safety and nuclear sciences. Ontario Tech University’s modern facilities and dedicated faculty members ensure students receive a high-quality education aligned with current industry standards. Alumni of the program typically find employment as radiation safety officers, health physicists, radiation protection specialists, or in regulatory roles related to nuclear safety. The program emphasizes not only technical skills but also professional ethics and communication abilities necessary for effective work in safety-critical environments. It is designed to meet the educational requirements for certification by professional bodies such as the American Board of Health Physics (ABHP) and the Canadian Nuclear Safety Commission (CNSC), thus facilitating career advancement in the nuclear and radiation safety sectors.