Msci

Physics

Student using laptop
  • UCAS code(s): F311
  • Level(s) of study: Undergraduate
  • Study mode(s): Full-time
  • Location: Clifton Campus
  • Starting: September 2018
  • Course duration: 4 year(s)
  • Entry requirements: More information

This is an integrated four-year undergraduate Masters course, designed to give you a more in-depth and broader understanding of physics. You will develop the ideas and core skills of a professional physicist and begin the progression from classical to quantum concepts and modern applications.

Why choose this course?

  • We’ve got a great reputation. We’re consistently rated as one of the best universities for teaching in the UK. At the Guardian University Awards in 2015 the judges said that "in terms of teaching excellence it came down to NTU versus NTU!"
  • We get consistently high satisfaction scores in the National Student Survey. In the most recent survey (2016), 96% of our Physics and Astronomy students say that staff are enthusiastic about what they are teaching, 97% of our students say staff are good at explaining things and 97% of students say they have been able to contact staff when needed.
  • We have inspiring learning environments. We have a custom-built, on-campus observatory recognised by the International Astronomical Union, a radio telescope, a CT scanner, new microscopes, MRI scanners, a scanning tunneling microscope and an ionising radiation laboratory.
  • We provide innovative accredited courses. Our pioneering courses and research are carried out in close collaboration with university and industry partners worldwide, giving our students skills and knowledge which are highly relevant to the needs of industry. Our undergraduate MSci and BSc physics courses are accredited by The Institute of Physics (IOP).
  • We're delivering research with impact. Physics staff contribute to research activity in a number of areas including Superhydrophobic Surfaces, Medical Resonance Imaging, Art Conservation and Space Weather. NTU has recently been awarded the Queen’s Anniversary Prize for research – the highest national award achievable. Every year approximately ten of our students undertake paid summer placements in our research groups, giving them hands-on experience of cutting-edge research.
  • We’re one of the top universities for offering placements. Our courses offer the opportunity to apply for a placement in the UK or abroad, giving you the real-life experience employers are looking for, including recent placements at CERN, E.ON, The Netherlands Forensic Institute and Diamond Light Source.
  • We’ve got an excellent employability record. Over 93% of NTU graduates are employed or engaged in further study six months after leaving.

What our students say

“I’ve always been told that with a Physics degree, 'the world is your oyster'. This is because you learn many useful and transferable skills ranging from problem-solving and analytical skills to being able to program and model future trends. If you want to discover and understand the physics happening all around you, then this course is ideal.”

Caroline Shaw, MSci (Hons) Physics

What you'll study

About the Physics Team

Our highly experienced staff are constantly updating and renewing the way in which they teach Physics. This ensures all our courses are up-to-date, forward-thinking and designed to meet the needs of an ever-changing, fast-paced technological world.

Professor Carl Brown is the inventor of low power liquid crystal e-paper displays that are used in many retail outlets. He shares this expertise on the Advanced Experimental Techniques module.

Dr Bill Neal has 30 years of teaching experience in UK universities. He knows all of our physics courses backwards and has an open door to dispense his good advice.

Dr Michael Newton is a Chartered Engineer and has more than 30 years of experience in the development of experimental equipment and instrumentation.

Professor Haida Liang is an internationally recognised expert in imaging in art conservation, a field in which she applies her background training in observational astrophysics.

Dr David Fairhurst is an accomplished researcher in the behaviour of liquid droplets. He received the Vice Chancellor's Award for Teaching in 2014 in recognition of his inspirational teaching.

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 supervised by Nobel-prize winning Sir Peter Mansfield, co-inventor of MRI.

Visit our academic team pages to find out more about our approach to teaching, our partners and research interests.

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. As part of this, we’re offering scholarships for up to 30 students to study a language module as part of their degree.

Learning a new language can:

  • enhance your communication skills
  • enrich your experience when travelling abroad
  • boost your career prospects.

Find out more about the University Language Programme.

  • Year One

    Concepts of Astronomy and Cosmology

    Get an introduction into astronomical objects and their nature, as well as using measurements of light and movement to determine the physical and dynamical characteristics of the solar system.

    Matter: Evidence for Quantisation

    Providing you with knowledge in elementary quantum ideas and nuclear physics, you will develop your ability to understand and apply mathematical techniques in a scientific manner.

    Ideas of Motion – From Galileo to Einstein

    Understand how force and motion are related, from the ideas of Galileo through to Newton’s laws of motion up to Einstein’s special theory of relativity.

    Introduction to Laboratory Software

    Learn basic concepts of program design, and gain the knowledge and skills to implement software solutions to scientific problems.

    Laboratory Instrumentation and Physics Skills

    This module provides an underpinning of essential professional, laboratory and IT skills, including physical principles of electronics-based measurement instruments.

    Mathematical Techniques

    This module provides the mathematical tools you need to support your studies in Physics, including the concepts of matrix and vector algebra, and their application to real examples in Physics.

  • Year Two

    Ionising Radiation and Non-invasive Imaging

    Learn about how different types of radiation interact; the beneficial and detrimental effects of Ionising Radiations (IR); and the principles of imaging techniques such as Ultrasonic and Magnetic Resonance Imaging (MRI).  This module includes a substantial number of experiments in our dedicated Ionising Radiation laboratory.

    Fundamental Forces

    Develop an understanding and appreciation of the principles, applications and relationships of the fundamental forces of nature: electromagnetism, gravity and strong and weak nuclear forces.

    The Quantum World

    Learn introductory quantum mechanics through the solution of the Schrodinger equation for model problems. This will reinforce your ability to deploy mathematical techniques.

    Optics and Semiconductors

    Study a range of topics concerned with geometrical and physical optics, and with the elucidation of the principles of operation of semiconductor devices through the application of solid state theory.

    Thermal and Environmental Physics

    Learn about the principles of thermal physics, including: heat transfer processes, thermal expansion of materials, behaviour of gases, atmospheric physics, the northern lights and the physics of climate change.

    Digital Techniques

    Learn about the concepts of digital electronics and digital data processing, including scientific image processing, the structure of a computer and its modes of communicating with other systems.

  • Year Three

    Condensed Matter

    Study macroscopic properties of matter, beginning with ideas of statistical mechanics and progressing to encompass the structure of matter, magnetic and transport properties.

    Advanced Experimental Techniques

    You will gain an insight into a wide range of sophisticated experimental techniques through innovative interactive classroom sessions and in-depth practical work.

    Advanced Modern Physics

    In this module you will be taught concepts at the cutting edge of physics. The content varies each year but may include Einstein’s happiest thought, the nature of curved space-time around black holes and the unfortunate consequences of anything that approaches too closely, gravitational waves or advanced quantum mechanics.

    Laboratory Interfaces and Control

    Learn about a range of standard computer interfaces that are encountered within the science laboratory and develop ideas of instrument control and signal processing.

    Optional Modules

    Stars and Galaxies

    Deepen your understanding of stars and galaxies and improve your knowledge of the the physical principles behind the various phenomena related to astronomical objects.

    Cosmology: Theory and Observation

    Covering both observational cosmology and the theoretical background of cosmology, you’ll gain a broad knowledge of modern cosmology through theoretical components and data analysis exercises.

    Nuclear Materials Science

    This module looks at the materials employed in nuclear reactors, including construction materials and fuels. You'll learn about the properties of materials employed in nuclear reactors and explore the issues associated with the production, use and disposal of nuclear fuels and wastes.

    Physics and Technology of Nuclear Reactors

    Deepen your knowledge and understanding of neutron-related processes and phenomena, and gain an overview of the physics that underpins the design and operation of both fission and fusion reactors.

  • Final year

    Research Methodology and Ethics

    Learn about the techniques required to formulate a research project, carry out a critical literature review and be introduced to ethical issues facing physicists.

    Medical Imaging

    Provides an introduction to the principles underlying a range of techniques and tools used in medical Imaging, image processing research, their applications and limitations.

    Materials and Security Imaging

    Learn about the principles underlying a range of techniques and tools used in materials and security imaging and related image processing research.

    Research Project

    You will be working full time in one of our state-of-the-art research laboratories on a cutting-edge project alongside other research scientists. If your results are good they may appear in a research publication with your name on the author list. Recent projects have included building a laser optical tweezer system, designing miniature MRI probes and investigating the behaviour of liquid crystal displays.

Course specification

View the full course specification
Please note that course specifications may be subject to change

How you’re taught

You will have around 18 hours per week of scheduled contact time with academic staff. This typically includes laboratory work, lectures and student centred activities. During the rest of your week you will be engaged in self-guided learning, and group or individual project work.

Assessment methods

Year 1 - coursework (23%), written (44%), and practical (33%)

Year 2 - coursework (13%), written (55%), and practical (32%)

Year 3 - coursework (27%), written (61%), and practical (12%)

Year 4 - coursework (80%) and written (20%)

Contact hours

A full-time student on average can expect to spend 1200 hours a year learning which will typically be broken down as follows:

Year 1 - lectures/seminars/workshops (28%) and independent study (72%)

Year 2 - lectures/seminars/workshops (27%) and independent study (73%)

Year 3 - lectures/seminars/workshops (23%) and independent study (77%)

Year 4 - lectures/seminars/workshops (30%) and independent study (70%)

Careers and employability

Your career development

You will develop numerical, analytical and computational skills which are greatly respected by employers, in addition to essential, transferable skills which include report communication skills, team working and problem solving. Our physics graduates have gone on to work for companies such as:

  • scientist training programme – NHS
  • aerothermal engineer – Rolls Royce
  • wind analyst – Prevailing Ltd
  • applications engineer – Romax Technology
  • technical writer – KA Testing Facility
  • medical dosimetrist – NHS
  • software test engineer – Nikon
  • car configuration engineer – Jaguar Land Rover
  • inspections engineer – Total Access (UK) Ltd
  • teacher – Numerous schools
  • public engagement of science officer – Science and Technology Facilities Council
  • graduate quantity surveyor – Balfour Beatty

Many graduates also choose to undertake MPhil and PhD research degrees in areas including Magnetic Resonance Imaging, Quantum Computing and Detector Research.

Entry requirements

What are we looking for?

  • 136 UCAS tariff points from up to four qualifications (two of which must be A-level equivalent including Physics and Mathematics grade A and B); or
  • BTEC Extended Diploma – DDD including relevant mathematics and physics modules; and
  • GCSEs – English and Maths grade C / 4

Applicants without A-levels will have their qualifications assessed for subject compatibility. We also consider equivalent qualifications and combinations. Please see UCAS Course Search for more details.

What are we looking for?

  • 136 UCAS tariff points from up to four qualifications (two of which must be A-level equivalent including Physics and Mathematics grade A and B); or
  • BTEC Extended Diploma – DDD including relevant mathematics and physics modules; and
  • GCSEs – English and Maths grade C / 4

Applicants without A-levels will have their qualifications assessed for subject compatibility. We also consider equivalent qualifications and combinations. Please see UCAS Course Search for more details.

International qualifications

We accept qualifications from schools, colleges and universities all over the world for entry onto our UG and PG degrees. If you’re not sure how your international qualification matches our course requirements please visit our international qualifications page.

English language entry requirements

If English is not your first language you need to show us that your language skills are strong enough for intensive academic study.   We usually ask for an IELTS test and we accept some alternative English language tests.

Help and support

If you have any questions about your qualifications or about making an application to the University please contact our International Team for advice.

How to apply

Ready to join us? Then apply as soon as you can. Just click the Apply button at the top of the page and follow the instructions for applying. Make sure you check the entry requirements above carefully before you do.

Writing your application and personal statement

Be honest, thorough and persuasive in your application. Remember, we can only make a decision based on what you tell us. So include all of your qualifications and grades, including resits or predicted grades.

Your personal statement is a really important part of your application. It’s your chance to convince us why we should offer you a place! You’ve got 4,000 characters to impress us. Make sure you use them to show how your skills and qualities are relevant to the course(s) you’re applying for. For more hints and tips, take a look at our page on how to write a good personal statement.

Keeping up-to-date

After you’ve applied, we’ll be sending you important emails throughout the application process so check your emails regularly, including your junk mail folder.

You can get more information and advice about applying to NTU on our Your Application page. Good luck with your application!

Please read our notes on the University's commitment to delivering the educational services advertised.

You can apply directly to the University for an undergraduate course if you’re not applying to any other UK university in the same year.  If you are applying to more than one UK university you must apply through UCAS.

Apply as early as you can so that you have time to prepare for your studies.  If you need a visa to study here you need to plan this into your application.

Keeping up-to-date

After you’ve applied, we’ll be sending you important emails throughout the application process so check your emails regularly, including your junk mail folder.

Good luck with your application!

Please read our notes on the University's commitment to delivering the educational services advertised.

Further information on how to apply

Need help with your application?
For admissions related enquiries please contact us:
Telephone: +44 (0)115 848 4200

Fees and funding

Once our 2018/19 fees have been set, they will be available on our fees and funding pages.

Getting in touch

For more advice and guidance, you can contact our Student Financial Support Service on telephone +44 (0)115 848 2494.

While we aim to keep any extra study costs to a minimum, please see our page on additional costs and optional extras to find out about any additional expenses you may incur on your course.

We offer prestigious scholarships to new international students holding offers to study at the University.

While we aim to keep any extra study costs to a minimum, please see our page on additional costs and optional extras to find out about any additional expenses you may incur on your course.

Still need help?

Science and Technology course enquiries
+44 (0)115 848 8351