Course summary
The Master of Science (Medical Radiation Physics) is a program for graduates with preliminary education background in physics, mathematics, biology or engineering who wish to work in public health and related areas, and who have a need for current knowledge and technical expertise in Medical Radiation Physics.
This degree
Our Medical Radiation Physics (MRP) program is backed by clinical associations with local and Sydney hospitals - over 50% of current practising medical physicists in NSW were educated and trained at UOW. Our strong ties with industries and government labs ensure you receive significant industry exposure throughout your degree.
Your lectures in Nuclear Medicine, Radiobiology and Radiation Protection and practical classes will be held in hospitals by practising Medical Physicists and university academics. You will benefit from the strong collaborative links in research and development that our staff have with local and international companies and leading medical radiation physics institutions.
These include:
USA: Brookhaven National Laboratory, MIT, Harvard School of Medicine Francis H. Burr Proton Therapy Beam Centre (MGH), Loma Linda University Medical Centre, Memorial Sloan Kettering Cancer Centre, Stanford University (SLAC), Montefiore Medical Center Albert Einstein College of Medicine (AECM)
Japan: KEK, Tsukuba Proton Therapy Centre, NIRS, Hitachi
Europe: SPA 'BIT', Institute for Scintillating Materials (Ukraine), SINTEF(Norway), CERN, (Switzerland), European Synchroton Radiation Facility, (France), PTB, Heidelberg Heavy Ion Therapy and Ludwig Maximilian University of Munich (Germany)
Australia: ANSTO, CSIRO, Gammasonics Institute for Medical Research Pty Ltd, Optical Fibre CRC, Insight Oceania Pty Ltd, Hitachi Australia, Siemens, Varian
The Master of Science (Medical Radiation Physics) has been approved as a professionally oriented Master program eligible for Student Income Support. For further information, please contact the Department of Human Services (Centrelink) on 132 490.
What you will study
The Master program comprises 12 coursework subjects and an applied research project under the supervision of professional medical physicists. Coursework subjects include:
Advanced Modern Physics
Detection of Radiation
Human Structure and Function
Differential Equations: Analysis and Applications
Electromagnetism and Optoelectronics
Radiation Physics
Nuclear Physics
Quantum Mechanics
Medical Imaging
Physics of Radiotherapy
Radiobiology and Radiation Protection
Nuclear Medicine
Multivariate and Vector Calculus
When you study the Medical Radiation Physics program you will gain an in-depth understanding of technical and theoretical knowledge, complemented with embedded practical work at hospitals and industry to prepare you for a career as a Medical Physicist in:
Radiotherapy and nuclear medicine departments in hospitals
Radiation protection in industrial and scientific facilities
Research, development and commercialisation of radiation medical instrumentation
Medical physics instrumentation sales.
นี่เป็นตัวเลขโดยเฉลี่ย กรุณาติดต่อสถาบันเพื่อเชคความถูกต้อง
22 กรกฎาคม 2024
University of Wollongong
Northfields Avenue,
UNIVERSITY OF WOLLONGONG,
New South Wales,
2522, WOLLONGONG, Australia
A recognised Bachelor degree in Physics with an equivalent average mark of 65%, otherwise any Bachelor degree with at least first year university level physics and mathematics, with an equivalent average mark of 75%.
English Requirements
IELTS Academic Overall Score of 6.5, reading 6.0, writing 6.0, listening 6.0, speaking 6.0; TOEFL (Internet-based) score of 86, reading 18, writing 18, listening 17, speaking 17; PTE Academic overall score of 62 All bands 54
กรุณาเช็คระดับ IELTSของคอร์ส ที่คุณต้องการสมัครให้ถูกต้อง
มหาวิทยาลัย Wollongong มีชื่อเสียงที่ยอดเยี่ยมในด้านการสร้างบัณฑิตที่พร้อมทำงานทันทีและคุณภาพการสอนในระดับนานาชาติ