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.
IELTS Academic: Overall Score 6.0, Reading 6.0, Writing 6.0, Listening 6.0, Speaking 6.0
TOEFL (Internet-based): Overall Score 70, Reading 18, Writing18, Listening 17, Speaking 17
Medical and radiation physicists work in many different fields related to human health in order to improve quality of life. They are familiar with aspects of ionising and non-ionising radiation used for radiation medicine. They are familiar with various forms of therapeutic radiation oncology as well as different methods of diagnostic radiation imaging, and the mechanisms of how such radiation interacts with the human body. They are also familiar with exciting new radiation medicine technologies being developed for the continued improvement in the treatment of human diseases.
This degree
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.
In second year, you will 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 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 you continue your studies to an Honours or Master degree, you will learn about Nuclear Medicine, Radiobiology and Radiation Protection in hospitals.
What you will study
You will learn where medical physics matters most: in hospitals, clinics and nuclear science research facilities. In this course you will gain knowledge in areas relating to nuclear medicine, radiotherapy physics, radiation transport physics modelling, detector and instrumentation physics, and data analysis.
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OSHC: 530 ($) AUD per year