The MSc at Aberdeen gave me the skills and confidence I needed to pursue a career in Medical Physics
Our MSc in Medical Physics will improve your knowledge of how technology can help diagnose disease, while you learn about all the major aspects of physics as applied in the modern clinical/health environment.
This programme is studied on campus.
The University of Aberdeen has an internationally renowned reputation and an enviable history in developing new techniques for medical imaging, including being the first place in the world to build a whole-body sized Magnetic Resonance Imaging (MRI) scanner and conduct a diagnostic MRI scan.
On this MSc programme you will study such specialisms as nuclear medicine (which includes learning about diagnosing disease using radioactive tracers), radiotherapy, medical electronics and MRI. The programme is aimed at individuals who want to obtain an MSc from a top tier UK University. Applicants typically include recent physics and engineering graduates, people who are on the NHS Medical Physicists training programme and those in employment as medical physicists and radiologists.
The Medical Physics programme covers the full range of applications of physics to healthcare, including diagnostic imaging and radiotherapy. The curriculum is based on the requirements of the National Health Service (NHS) in the UK and the programme is accredited by the Institute of Physics and Engineering in Medicine (IPEM).
This course introduces students to fundamental aspects of anatomy, physiology and biochemistry, in order to develop a basic understanding of cells, tissues and organs and how they may be altered by disease. The course also includes a range of topics around Professional Issues, Management of Medical Physics, Statistics and Safety.
This course provides instruction in the basic physics and engineering principles of imaging techniques used in medicine. It also provides an overview of the range of applications of imaging techniques in the modern medical environment. The course covers Nuclear Medicine, Positron Emission Tomography, Radiodiagnosis (X-ray imaging), Magnetic Resonance Imaging and Ultrasound Imaging.
This course introduces students to fundamental aspects of radiation physics, including the mechanisms of interaction of radiation with matter. The basic concepts and techniques of radiation therapy are covered, as are the fundamentals of radiation protection. Applications of non-ionising radiation in medicine are also covered.
This course provides an introduction to computing and information technology as applied to medical physics and medical imaging, including an introduction to medical image processing techniques. Hands-on learning is provided to build confidence with computer software. The course also covers basic concepts of analogue and digital electronics and their application in a clinical setting.
This course gives students the opportunity to develop the transferable skills required to both complete their degree programme and progress in their future career. The course provides guides and workshops on a variety of skills, including literature appraisal, academic integrity, writing, presentations, note taking and time management. It provides online resources for developing IT and numeracy skills, and acts as a resource for advertising development opportunities both within and outside the university.
The course strongly relies on self-reflection and identification of opportunities by the students to use the support sessions and online resources available. Although completion of the course itself is compulsory the majority of the course sessions offered are optional, and support is given to the students to help them identify what they most need to work on. Completion of the course is achieved through formative assignments.
This course is the first of two courses relating to cross-discipline skills development that is compulsory for all taught postgraduate students in the School of Medicine, Medical Sciences and Nutrition.
This course covers all aspects of radiotherapy physics including radiobiology of radiotherapy treatment, charged particle therapy, dosimetry, treatment planning, brachytherapy, radiotherapy equipment, quality assurance, safety and radiation protection in radiotherapy. In addition to attending lectures and tutorials, students spend time in the state-of-the-art Radiotherapy department of Aberdeen Royal Infirmary, to attend demonstrations in CT treatment planning, gynaecological brachytherapy, megavoltage beam data acquisition and linear accelerator QA.
You will gain hands-on experience of a modern gamma camera during the practical. Departmental visits allow access to state-of-the-art imaging systems and radioisotope production facilities. Lectures are delivered by experienced clinical staff and leading academics. They reflect current best clinical practice and provide content around research methods and analysis techniques. This ensures the course remains current and reflects the full range of applications of the technique. It provides an overview of career possibilities in medical imaging applications of radiation and provides a knowledge base to make informed choices around future careers or study.
The wide range of related subjects covered, including basic Magnetic Resonance Imaging theory, practical applications and hands on experience, gives you a broad understanding of Magnetic Resonance Imaging.
You will be in the advantageous position of learning in an environment that was pivotal in the early development of Magnetic Resonance Imaging and continues to contribute to its development.
The lecturers will be academics who are leading researchers, to ensure the course content is rooted in today’s best practice and science.
The Diagnostic Radiology and Radiation Protection Deeper Study will give you to opportunity to learn about a wide range of diagnostic modalities used in clinical practice, such as computed and digital radiography, fluoroscopy, CT and mammography. You will also learn about Radiation Protection legislation in the UK and how this is applied. The course will include hands-on practical work in ARI where you will have the opportunity to use x-ray equipment and a variety of detectors. This course provides a solid knowledge base for going on to work in a medical physics department.
This course gives students the opportunity to develop the skills needed to progress in their degree programme and beyond into their chosen career. It focuses on the job application process, the support available from the university both during and after their degree, and the skills that apply to undertaking projects. Sessions include an introduction to the careers service, CV, cover letter and interview skills, workplace professionalism and managing projects. Online resources are provided to support transferable skill development.
The course strongly relies on self-assessment and identification of opportunities by the students to use the support sessions and online resources available. Although completion of the course is compulsory, most of the course sessions offered are optional, and completion of the course is achieved through formative assignments.
This course is the second of two courses relating to generic skills that are compulsory for all taught postgraduate students in the School of Medicine, Medical Sciences and Nutrition.
This course comprises a research project, lasting approximately 15 weeks including write-up and assessment. The student will carry out independent research which will typically involve literature review and/or analysis of experimental results, and may also require computer simulations and/or practical investigation, depending on the type of project.
During the project the student will develop: knowledge in a particular area of research, research methods including information retrieval, time management and self-organisation, initiative and independent thought, communication skills required for production of a thesis (9000-15000 words) and a poster.
We will endeavour to make all course options available; however, these may be subject to timetabling and other constraints. Please see our InfoHub pages for further information.
Our Medical Physics programme is taught through traditional lectures and practicals with some courses making use of seminars and specialised practical sessions. Many lectures are recorded and can be viewed again by students when required.
The MSc enables you to learn outside the classroom in our state-of-the-art facilities, including MRI scanners, the John Mallard Scottish PET Centre and the recently opened radiotherapy centre. This will enable you to apply both theory and practice to medical physics projects. You will also have many opportunities to engage with staff from the Medical School and Foresterhill Health Campus, one of the largest clinical complexes in Europe.
Some of the teaching methods employed in the programme include:
On-going support is provided by the University’s dedicated team of experienced researchers, who will be tutoring you.
Much of the teaching on this course involves participatory research work. Students are expected to engage with research work as well as classroom teaching and independent study in their own time.
Students are evaluated through continuous assessment in the form of essays, laboratory practicals, individual and group presentations and written examinations. The MSc project is assessed by a thesis and oral presentations of the project findings.
Each course throughout the programme is assessed by continuous assessment in the form of practical write-ups, essay assignments, student presentations and written examinations.
The MSc at Aberdeen gave me the skills and confidence I needed to pursue a career in Medical Physics
The information below is provided as a guide only and does not guarantee entry to the University of Aberdeen.
Physical science or Engineering second-class Honours degree. Minimum 2:2, 60% or GPA 2.4/4 or 3.0/5 overall.
Please check the In My Country pages to find out if your degree is equivalent.
Academic Technology Approval Scheme (ATAS) certificate
Please note that international applicants for this programme require an Academic Technology Approval Scheme (ATAS) certificate. The ATAS certificate must be obtained before applying for a Tier 4 visa. You can submit an ATAS application up to 6 months before the programme start date, even if the offer is still conditional.
Please enter your country to view country-specific entry requirements.
To study for a Postgraduate Taught degree at the University of Aberdeen it is essential that you can speak, understand, read, and write English fluently. The minimum requirements for this degree are as follows:
OVERALL - 6.5 with: Listening - 5.5; Reading - 5.5; Speaking - 5.5; Writing - 6.0
OVERALL - 90 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21
OVERALL - 62 with: Listening - 51; Reading - 51; Speaking - 51; Writing - 54
Cambridge English Advanced & Proficiency:
OVERALL - 176 with: Listening - 162; Reading - 162; Speaking - 162; Writing - 169
You will be required to supply the following documentation with your application as proof you meet the entry requirements of this degree programme. If you have not yet completed your current programme of study, then you can still apply and you can provide your Degree Certificate at a later date.
You will be classified as one of the fee categories below.
|Home / EU / RUK Students||£10,000|
|Tuition Fees for 2020/21 Academic Year|
|Tuition Fees for 2020/21 Academic Year|
The following options are available to support your studies. Please click the links for full details and eligibility criteria.
View all funding options in our Funding Database.
Completing the MSc programme in Medical Physics at the University of Aberdeen will provide you with a solid base to pursue a career in healthcare and science, within hospitals, academic institutions and industry. You will develop the knowledge, understanding and practical insight that will enable you to help diagnose and treat disease using techniques such as nuclear medicine, MRI, medical electronics and computer technology and radiotherapy.
Some of the career options available to you include:
An MSc in Medical Physics from the University of Aberdeen will show employers that you have a broad knowledge base, first-hand research experience and the relevant skills required to bring value to their organisation. Links with the University, the John Mallard Scottish PET Centre and the Foresterhill Health Campus will enhance your credibility and help establish your reputation as a contributor to essential research projects.
The MSc programme meets the educational requirements of the Part I Training Scheme for Medical Physicists and Clinical Engineers in the UK’s National Health Service.
The MSc is accredited by the Institute of Physics and Engineering in Medicine
Speaking with people who had previously studied medicine and medical physics in Aberdeen convinced me that the course in Aberdeen had the right combination of support and challenge to really motivate me.
I enjoyed being immersed in the multidisciplinary environment. My peers and I were exposed to clinicians, computer scientists, physicists, and biologists, and this led to a variety of interesting and educational exchanges
I chose the University of Aberdeen because it ranked highly in the medical sciences and had made significant contributions to my field of study especially in the detection and treatment of cancer.
I really enjoyed the second segment of the course wherein the students had the opportunity to choose electives and specialize in real world applications of Medical Physics.
One of the best aspects of my MSc was the availability of equipment and facilities. For example: one of the research MRI scanners was a great learning resource, with the option to tinker with the technology and really see how it works.
The programme will be delivered by an experienced, multidisciplinary team of internationally renowned researchers and NHS staff.
You will be taught by a range of experts including professors, lecturers, teaching fellows and postgraduate tutors. Staff changes will occur from time to time; please see our InfoHub pages for further information.
Our 3.0 T Philips Achieva research MRI scanner, is located in the Lilian Sutton Building (LSB) at Aberdeen Royal Infirmary (ARI) on the Foresterhill Health Campus.
The clinical PET scanner (a GE Discovery STe PET CT) is located in a purpose built facility, adjacent to the tracer development facility, nuclear medicine and MRI units.
The Foresterhill Health Campus is one of the largest clinical complexes in Europe which includes the Medical School, large teaching hospital, the Institute of Medical Sciences and the Rowett Institute of Nutrition and Health.