Type of institution: University/Higher Education Institution
The Bachelor of Medical and Radiation Physics is very hands-on with large practical components in all subjects studied to complement the underlying theoretical physical principles. To ensure the highest level of industry engagement, professional medical physicists from major hospitals and keynote speakers from industry will deliver key lectures and practical work, as well as co-supervise research projects. Students will learn where medical physics matters most: in hospitals, clinics and nuclear science research facilities and gain knowledge in areas relating to nuclear medicine, radiotherapy physics, radiation transport physics modelling, detector and instrumentation physics, and data analysis.
3 years full-time or part-time equivalent. In the second year, students gain hands-on experience in photon, neutron and charged particle physics in the undergraduate physics laboratories, as well as make field trips to accelerator facilities such as the Australian Nuclear Science and Technology Organisation (ANSTO). In the third year, you will also gain practical experience, particularly in electron and X-ray related medical physics at cancer treatment centres and through ANSTO. You will graduate with a strong background in physics as well as specialist theoretical, practical and programming skills in radiation medicine that are necessary to find employment in hospitals, research laboratories or related industries. If students continue their studies to an Honours or Master degree, they will learn about Nuclear Medicine, Radiobiology and Radiation Protection in hospitals.
- Medical radiation physics
Standard entry requirements
DOMESTIC STUDENTS - ATAR-BASED ADMISSION OPTIONS Guaranteed entry selection ranks Entry to this course can be gained with: Minimum ATAR (Australian Tertiary Admission Rank) International Baccalaureate (IB) Interstate equivalent (such as the Victorian ENTER or Queensland OP) Results in an overseas qualification deemed equivalent to Australian year 12 The minimum score for guaranteed entry (or for consideration if this course has limited places) is an ATAR-Selection Rank of 80 or an IB of 29. This includes the effect of adjustment factors. Adjustment factors, such as the subjects you are studying, the area in which you live or equity and access schemes, are taken into consideration and these will be combined with your ATAR to adjust your selection rank and make it higher than your ATAR. These adjustments used to be called bonus points. Find out more about UOW adjustment factors here: https://www.uow.edu.au/future/school/apply/index.html ASSUMED KNOWLEDGE AND RECOMMENDED STUDIES The University assumes students will have studied any 2 units of English. INTERNATIONAL STUDENTS Applicants need to have achieved the required score in a qualification equivalent to the completion of 13 years of schooling in Australia. In order to succeed in your chosen course, it is assumed you have completed relevant subjects in your senior high school studies or other relevant qualifications. This is particularly important for degrees which have a strong basis in Mathematics or Science.
The Bachelor of Medical and Radiation Physics degree conforms to the requirements for membership of the Australian Institute of Physics and the Australasian College of Physical Scientists and Engineers in Medicine.
If applicants can demonstrate they have met the learning outcomes for UOW subjects through prior learning, such as previous tertiary or TAFE qualifications, they may be eligible for credit towards their degree. Where relevant to the UOW degree, specified credit may be given for specific subject(s); where not relevant to the degree, unspecified credit may be awarded.
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Advanced program available. If you are a high-achieving and motivated student, the Advanced program will give you an enriched educational experience.