About this course
Medical physics is the application of physics to the prevention, diagnosis and therapy of human diseases. It is a vast and expanding field covering everything from the physics of the human body, nuclear medicine, and medical scanning and diagnosis using tools such as MRI, x-rays and ultrasound. Studying this course gives you the opportunity to be at the forefront of this exciting and rapidly growing area, contributing to improvements in human healthcare and well-being.
You’ll study a solid core of mainstream physics, specialising in medical physics. This course covers fundamental topics including mathematics, classical and quantum mechanics, wave phenomena, electromagnetism, optics, thermodynamics, properties of matter, and programming, developing and applying these concepts to the human body, medical diagnostic imaging, therapy, and nuclear medicine.
Personalise your course so it truly feels like your own. At every stage of your studies you’ll get the opportunity to focus on specialist projects and explore case studies in topics that interest you and suit your career path.
Develop investigative, experimental, mathematical, computational, and other transferable skills. Our courses are carefully designed to produce numerate and articulate graduates who are very attractive to future employers.
Immerse yourself in experiences which support your learning and personal development. You might go on a fieldtrip to a theme park to study the physics of rollercoasters, visit relevant employers to engage with real work-like experiences, take part in dedicated employability sessions tailored to your career path, and have access to our resilience building workshops.
BSc (Hons) Medical Physics shares a common first year with our other BSc (Hons) Physics courses, giving you the opportunity for a transfer between courses at the end of year one.
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We offer short, paid Summer scholarships with our World-leading Physics research teams. It’s a great opportunity to further your research interests, contribute to the department, and enhance your future career options. -
Top 20 in the UK for teaching quality in Physics (Times and Sunday Times Good University Guide 2024). -
96% of our Physics students were positive about academic support and 99% were positive about the organisation and management of their course. National Student Survey 2024.
What you’ll study
We have active relationships with national and international companies in industry. They’ll provide you with meaningful work-like experiences such as site visits and live projects. They also inform the content of your courses meaning what you are learning is shaped by potential future employers. Recently our students enjoyed a visit to the Rolls Royce site where they met physicists and toured their facilities.
About the Physics Team
Our expert staff are constantly updating the way in which they teach Physics. Most of our staff conduct cutting-edge research and bring these inspirational results into their teaching. This ensures that what you learn is exciting, relevant and up-to-date.
Ed Breeds is a talented and cheerful lecturer, communicating topics in undergraduate physics in an entertaining and accessible manner. He spends most of his weekends telling the public all about physics at science festivals and events too!
Professor Rob Morris is an expert in medical imaging with a focus on MRI and ultrasound. He is a dynamic lecturer and project supervisor and enjoys sharing his knowledge and enthusiasm for the topic with students at all levels.
Professor Haida Liang is an internationally recognised expert in advanced optical imaging and sensing for archaeology, art history and conservation, a field in which she applies her background training in astrophysics.
Dr Dan Brown, who teaches astronomy modules, is regularly interviewed on radio and TV for his astronomy work with schools and other outreach events.
Dr Nicolas Sawyer has a very student friendly approach to being Year One Tutor, along with expertise in optics and imaging.
Dr Martin Bencsik, who teaches and researches into MRI, studied for his PhD with the Nobel-prize winning Physicist Sir Peter Mansfield, co-inventor of MRI.
Mathematical Techniques
Learn how to use some of the mathematical tools necessary to understand Physics. Build on any previous knowledge of algebra, calculus and trigonometry, before studying the concepts of matrix and vector algebra and vector calculus.
Classical and Quantum Mechanics
You’ll develop an understanding of how force, motion, and energy are related, from classical to quantum mechanics. The module reinforces your ability to use mathematical techniques to model physical situations. Your understanding is developed through laboratory experiments and note taking.
Introduction to Programming for Physics
This module gives you an introduction to programming for physics and the knowledge and skills to implement software solutions with a focus on a sustainable future. You’ll be using programming software such as Python, LabVIEW, MATLAB and C.
Properties of Matter
Introducing the basic structure and model of both stable and unstable nucleus, this module explores radioactive decay and modern applications of ionising radiation. You’ll explore beyond elementary nuclear physics to atomic bonding and some fundamental bulk properties of matter. This module includes project work and there’s an opportunity to further specialise your studies in medical physics further by choosing to focus your project work in this area.
Concepts of Astronomy
Discover the key concepts in astronomy and astrophysics by studying a range of topics around the principles and applications of geometrical and physical optics. You’ll study the composition of the Galaxy alongside concepts such as principles for propagation of light and refraction and reflection. This module includes project work and there’s an opportunity to further specialise your studies in medical physics further by choosing to focus your project work in this area.
Instrumentation and Physics Skills
Learn the skills needed to become a professional physicist in the module. You’ll develop good laboratory practices such as lab notebook keeping, organisation and safety alongside learning how to interpret and report your findings.
Thermodynamics and Statistical Physics
Introducing the principles and applications of thermodynamics and statistical mechanics, this module includes exploring heat transfer processes, thermal properties of materials, and the behaviour of gases, liquids and solids.
Fundamental Forces
Explore the fundamental forces of nature: gravity, electromagnetism, and the strong and weak nuclear forces. You’ll develop your understanding and appreciation of the principles and applications of fundamental forces and of the relationships between them. Study concepts such as Kepler's Laws, Newtonian gravitation and Einstein’s special theory of relativity.
The Quantum World
In this module you will study modern quantum mechanics. Through the application of the 1-D and 3-D Schrödinger equation you’ll learn how to model problems and scenarios.
Modern Optics and Image Processing
Discover the principles and applications of geometrical and physical optics and digital data / image processing. Studying topics such as lasers, lenses and electromagnetic waves, you’ll get an overview of the application of digital processing to scientific images. This module includes project work and there’s an opportunity to further specialise your studies in medical physics further by choosing to focus your project work in this area.
Project Management and Enterprise
Learn how to achieve your project objectives within agreed financial, temporal and creative parameters. By working on a project you’ll establish creative and commercially viable outputs and solutions to contemporary problems alongside developing strong project management and team working skills - all valuable skills when you graduate.
Anatomy and Diagnostic Imaging
Supported by state of the art 3D anatomy software, you’ll study the anatomy of the human body. Explore image formation and how this can be applied to diagnostic medical imaging techniques such as ultrasound, planar X-ray and X-ray CT, and Positron Emission Tomography.
You have the option to undertake a one year work placements in industry. On successful completion you will gain an additional award – the Placement Diploma in Professional Practice.
If you are not taking a placement you will progress directly to your final year in year three.
Core modules
Applied Fluid Dynamics
Study both the theoretical topics and applying your learning to industry and research. You’ll be covering topics such as momentum transport, Newtonian and non-Newtonian flow and Bernoilli’s equation. This module includes project work and there’s an opportunity to further specialise your studies in medical physics further by choosing to focus your project work in this area.
Physics of the Human Body
Apply core physics concepts to better understand the processes of the human body. You’ll looks at topics such as blood-flow, viscosity and composition of blood, biophysics of limbs and bone structure.
Therapy and Nuclear Medicine
Gain clinically-focused experience of treatment and nuclear medicine, including patient management and interaction. You’ll focus on some of the clinical skills expected for a career in healthcare and related technologies including protocols and procedures, safety and reporting skills.
Project and Professional Skills
This module will give you training in the skills and techniques you need to undertake physics research and project work. With a particular focus upon transferable skills and employability, you’ll cover a wide range of topics including literature search and analysis, Ethical issues, risk assessments, scientific writing and progress reporting. You will complete a project which has a medical focus.
Optional modules - choose one from
Practical Electronics
This module introduces analogue and digital electronics, including PCB design and fabrication and using common sector-standard equipment in a laboratory environment. You’ll study topics such as logic, control systems, microcontrollers and transistors.
Physics for Sustainable Development
Learn about alternative sources of energy and the physics of climate change in this module. You’ll study topics such as solar radiation, space weather, global warming and the United Nations Sustainable Development Goals.
Solid State Physics
Discover the macroscopic properties of matter, focusing on solid state and semiconductor physics. You’ll begin with a review of statistical mechanics to progresses and look at topics such as diffraction patterns, magnetism and waves.
We regularly review and update our course content based on student and employer feedback, ensuring that all of our courses remain current and relevant. This may result in changes to module content or module availability in future years.
Don’t just take our word for it, hear from our students themselves
Hands-on physics
How you're taught
You’ll learn through a mix of:
- lectures - covering the key theories
- seminars - smaller-group sessions perfect for learning key skills and collaborative working
- practical sessions - using our extensive range of industry-standard facilities
- workshops - this includes surgery sessions where you’ll meet with your lecturer in small groups to discuss any problems or work through challenging topics.
The rest of your time will be spent carrying out independent study such as reading textbooks and lecture notes, and working on exercises.
Learn a new language
Alongside your study you also have the opportunity to learn a new language. The University Language Programme (ULP) is available to all students and gives you the option of learning a totally new language or improving the skills you already have. Find out more about the ULP.
How you're assessed
People excel in different ways, and we want everybody to have the best possible chance of success. That’s why we’ve adopted a range of assessment types, including:
- coursework, including group projects, case studies, dissertation and other assignments
- practical assessments, such as individual and group presentations, laboratory assessments and reports
- exams and tests, including formal exams, written tests and multiple-choice.
Careers and employability
Your career development
This course prepares you for a wide range of career opportunities both inside and outside physics. It’ll help you to develop numerical, analytical and computational skills which are greatly respected by employers. You’ll also gain essential, transferable skills including report communication, team working and problem solving.
You’ll be prepared for a wide range of employment within the broad area of physics, as well as for continuing onto postgraduate studies.
There’s a focus on business and project management to support entrepreneurial and innovative physicists. This ensures you graduate ready for a competitive job market.
Our Physics courses have a clear link to the NHS Scientist Training Programme. Our courses are designed and informed by industry experts and our own alumni to prepare you for further training and development with the prestigious Scientist Training Programme.
Our recent Physics graduates have secured roles at companies including:
- Science and Technology Facilities Council
- NHS
- MHR
- Balfour Beatty
- Caterpillar Inc
They have gone into a wide variety of job roles including:
- Public Engagement of Science Officer
- Software architect
- NHS Scientist Training Programme
- Physicist
- Geophysicist
- Secondary School Physics Science Technician
Excellent placement opportunities
NTU is one of the most employment-focused universities. Increasingly, employers want to recruit graduates who have real-world work experience. That’s why all of our courses, across every subject area, offer you a work experience opportunity. Our experts help build and support your future with a range of career programmes and events.
On this course, after your second year, you will have the opportunity to take a year's work placement (sandwich placement). This will give you the chance to gain vital experience and put your knowledge into practice. You're also twice as likely to secure a graduate job within six months if you take a work placement.
Our recent students have taken placements across a wide range of companies including Science and Technology Facilities Council, CERN, and National Grid. They secured varied roles such as Ultrafast Laser Scientists, Applied Scientist and Safety Support Intern.
You'll be supported and assessed throughout your placement year and will write a reflective report and diary at the end of your placement. When you successfully complete your placement, you will be eligible to receive an additional award of a Diploma in Professional Practice.
We also offer shorter (usually eight week) paid placements in our research groups and in local secondary schools.
Find out more about work placements.
NTU Enterprise
You'll also have the opportunity to turn your ideas into a viable business with help from NTU Enterprise, NTU's purpose-built Centre for Entrepreneurship and Enterprise, a support centre to help students create, develop and grow their own businesses.
Campus and facilities
You’ll mainly be studying in the Erasmus Darwin Building with access to facilities including an on-campus observatory, sound booths, CT scanners and dark rooms:
- custom-built teaching observatory recognised by the International Astronomical Union with a 20-inch and a 14-inch telescope and a 2.3m radio telescope
- MRI facilities, including a 2.35 Tesla Bruker Biospec scanner, a Halbach MRI and a unilateral MRI scanner
- a microscopy and imaging suite including electron microscopes, confocal and polarising microscopes, an atomic force microscope and a scanning tunnelling microscope
- a state-of-the-art micro-fabrication laboratory for creating micro-mechanical and microfluidic devices
- an excellent Ionising Radiation teaching laboratory and three X-ray CT scanners.
Our facilities and expertise ensure you get the practical experience employers and researchers need. Recently, we’ve spent £250,000 on new equipment for our teaching laboratories, including telescopes, CCD cameras, ultrasound scanners, magnetic resonance spectrometers, high-speed cameras, thermal imaging equipment and a high-resolution 3D printer.
Our self-contained, community-focused Clifton Campus has been designed to keep students busy between lectures. Catch-up with your course mates in the Pavilion’s barista café and Refectory; brainstorm group presentations in chic and stylish study spaces; enjoy some proper R&R in The Point, home of our Students’ Union. The campus also hosts the multimillion-pound Clifton Sports Hub, offering great options for everyone — whatever your interests, and however competitive you’d like to get!
You’re also right next to the bright lights of Nottingham — one of Britain’s top 10 student cities, and one of Europe’s top 25. All through termtime, a dedicated on-campus bus service will get you to the heart of the action (and back) in under 25 minutes. You’ll find a city stuffed with history, culture, and well-kept secrets to discover at your leisure: enjoy lush green spaces, galleries, hidden cinemas and vintage shopping by day, and an acclaimed food, drink and social scene by night.
Get involved
Our student-run Astronomy and Physics Society organises social events and trips – all themed around hot Physics topics. Recently students have been searching for the Northern Lights in Iceland, visiting the large hadron collider in CERN, and calculating the complex forces involved in roller coaster rides at Alton Towers.
Entry requirements
UK students
- Standard offer: 120 UCAS Tariff points from up to four qualifications including A-level equivalent Maths and Physics grade C
- Contextual offer: 112 UCAS Tariff points from up to four qualifications including A-level equivalent Maths and Physics grade C
To find out what qualifications have tariff points, please use our tariff calculator.
Additional requirements for UK students
There are no additional requirements for this course.
Contextual offers
If you don’t quite meet our entry requirements, we might be able to make you a lower offer based on a range of factors, including your background (such as where you live and the school or college you attended), your experiences and your individual circumstances (you may have been in care, for example). This is called a contextual offer, and we get data from UCAS to help make these decisions. We do this because we believe everyone with the potential to succeed at NTU should have the opportunity to do so, no matter what barriers you may face.
Meeting our entry requirements
Hundreds of qualifications in the UK have UCAS Tariff points attached to specific grades, including A-levels, BTECs, T Levels and many more. You can use your grades and points from up to four different qualifications to meet our criteria. Enter your predicted or achieved grades into our Tariff calculator to find out how many points your qualifications are worth.
Other qualifications and experience
NTU welcomes applications from students with non-standard qualifications and learning backgrounds, either for year one entry or for advanced standing beyond the start of a course into year 2 or beyond.
We consider study and/or credit achieved from a similar course at another institution (otherwise known as credit transfer), vocational and professional qualifications, and broader work or life experience.
Our Recognition of Prior Learning and Credit Transfer Policy outlines the process and options available for this route. If you wish to apply via Recognition of Prior Learning, please contact the central Admissions and Enquiries Team who will be able to support you through the process.
Getting in touch
If you need more help or information, get in touch through our enquiry form.
International students
- Academic entry requirements: 120 UCAS Tariff points from up to four qualifications including A-level equivalent Maths and Physics grade C. We accept equivalent qualifications from all over the world. Please check your international entry requirements by country.
- Other requirements: GCSE English and Maths grade C / 4
- English language requirements: See our English language requirements page for requirements for your subject and information on alternative tests and Pre-sessional English.
Additional requirements for international students
English language requirements
View our English language requirements for all courses, including alternative English language tests and country qualifications accepted by the University.
If you need help achieving the language requirements, we offer a Pre-Sessional English for Academic Purposes course on our City campus which is an intensive preparation course for academic study at NTU.
Other qualifications and experience
If you have the right level of qualifications, you may be able to start your Bachelors degree at NTU in year 2 or year 3. This is called ‘advanced standing’ entry and is decided on a case-by case basis after our assessment of your qualifications and experience.
You can view our Recognition of Prior Learning and Credit Transfer Policy which outlines the process and options available, such as recognising experiential learning and credit transfer.
Sign up for emails
Sign up to receive regular emails from the International Office. You'll hear about our news, scholarships and any upcoming events in your country with our expert regional teams.
Getting in touch
If you need advice about studying at NTU as an international student or how to apply, our international webpages are a great place to start. If you have any questions about your study options, your international qualifications, experience, grades or other results, please get in touch through our enquiry form. Our international teams are highly experienced in answering queries from students all over the world.
Policies
We strive to make our admissions procedures as fair and clear as possible. To find out more about how we make offers, visit our admissions policies page.
