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Physics with Astrophysics MPhys (UCAS F3FA) (2024 Entry)

If you would like to study at Warwick, there are other courses available for 2025 entry.

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General entry requirements

  • A Level: AAB including A in either Maths or Further Maths AND A in Physics

Learn more about our Physics with Astrophysics degree at Warwick

On our Physics with Astrophysics (MPhys) degree, you will join one of our two astrophysics groups. You will be mentored by, and work on projects with, astrophysicists.


General entry requirements

A level typical offer

A*AA to include A in Mathematics (or Further Mathematics) and Physics

A level contextual offer

We welcome applications from candidates who meet the contextual eligibility criteria and whose predicted grades are close to, or slightly below, the contextual offer level. The typical contextual offer is A*AB including A*, A in A Level Maths and Physics (any order). See if you’re eligible.

General GCSE requirements

Unless specified differently above, you will also need a minimum of GCSE grade 4 or C (or an equivalent qualification) in English Language and either Mathematics or a Science subject. Find out more about our entry requirements and the qualifications we accept. We advise that you also check the English Language requirements for your course which may specify a higher GCSE English requirement. Please find the information about this below.

IB typical offer

38 to include 6 in Higher Level Mathematics (Analysis and Approaches only) and Higher Level Physics

IB contextual offer

We welcome applications from candidates who meet the contextual eligibility criteria and whose predicted grades are close to, or slightly below, the contextual offer level. The typical contextual offer is 36 including 6 in Higher Level Mathematics ('Analysis and Approaches' only) and 6 in Higher Level Physics. See if you’re eligible.

General GCSE requirements

Unless specified differently above, you will also need a minimum of GCSE grade 4 or C (or an equivalent qualification) in English Language and either Mathematics or a Science subject. Find out more about our entry requirements and the qualifications we accept. We advise that you also check the English Language requirements for your course which may specify a higher GCSE English requirement. Please find the information about this below.

BTEC

We welcome applications from students taking a BTEC qualification alongside A level Maths and Physics.

We may consider a BTEC qualification in a relevant Science or Engineering subject alongside A level Maths only on an individual basis.

Scotland Advanced Highers

AA in Advanced Higher Mathematics and Advanced Higher Physics and AAA in Highers in 3 further subjects.

Welsh Baccalaureate

A*A at A level including Maths and Physics, plus grade B in one further A level subject and grade C in the Welsh Baccalaureate Advanced Skills Challenge Certificate.

Access to Higher Education Diplomas

We will consider applicants returning to study who are presenting a QAA-recognised Access to Higher Education Diploma on a case-by-case basis.

Typically, we require 45 Credits at Level 3, including Distinction in 33 Level 3 credits and Merit in 12 Level 3 Credits. We may also require subject specific credits or an A level to be studied alongside the Access to Higher Education Diploma to fulfil essential subject requirements.

General GCSE requirements

Unless specified differently above, you will also need a minimum of GCSE grade 4 or C (or an equivalent qualification) in English Language and either Mathematics or a Science subject. Find out more about our entry requirements and the qualifications we accept. We advise that you also check the English Language requirements for your course which may specify a higher GCSE English requirement. Please find the information about this below.


International qualifications


English Language requirements

All applicants have to meet our English Language requirements. If you cannot demonstrate that you meet these, you may be invited to take part in our Pre-sessional English course at WarwickLink opens in a new window.

This course requires: Band A

Learn more about our English Language requirementsLink opens in a new window


ATAS requirements

Offer holders from non-exempt nationalities will also need to gain ATAS Clearance for entry to this course – please see our ATAS webpages for further guidance - ATAS (warwick.ac.uk)Link opens in a new window


Frequently asked questions

Warwick may make differential offers to students in a number of circumstances. These include students participating in a Widening Participation programme or who meet the contextual data criteria.

Differential offers will usually be one or two grades below Warwick’s standard offer.

All students who successfully complete the Warwick IFP and apply to Warwick through UCAS will receive a guaranteed conditional offer for a related undergraduate programme (selected courses only).

Find out more about standard offers and conditions for the IFP.

We welcome applications for deferred entry.

We do not typically interview applicants. Offers are made based on your UCAS form which includes predicted and actual grades, your personal statement and school reference.

Course overview

Astrophysics has a special flavour. With the arrival of space-based instrumentation and gravitational wave detection, some of the most exciting discoveries in your lifetime are likely to come in astrophysics.

We can't conduct experiments on stars or galaxies as they're too far away and too big. Instead, we need to piece together explanations of what we see. This involves understanding the fundamental physics mechanics, quantum theory, relativity, thermodynamics and trying to work out what they imply for exoplanets, galaxies, stars and the Universe as a whole.

The course covers the principles of physics and their application to explain astrophysical phenomena. In your first year, you will study the classification of astrophysical objects and how we observe them. During the second year, you will study the solar system and stars in some detail. In the third and fourth years, you can study a range of topics including cosmology, exoplanets, the physics of compact objects (black holes, neutron stars and white dwarfs), general relativity and our Sun.

You will be mentored by, and work on projects with, astrophysicists.


Core modules

In the first two years you cover the fundamentals that apply throughout physics, such as mechanics and quantum theory, and meet the major phenomena observed in stars and space. There are also practical classes to develop laboratory and observational skills.

In later years look more closely at the phenomena that we can observe as well as those we would like to observe. Examples include star and galaxy formation, cosmology (how the universe was formed and where it may be going), the structure of our sun and the formation of planets and other solar systems.

In the final year, you complete a year-long research project, which can be observational, theoretical or some combination of these.


Year One

Mathematics for Physicists

All scientists use mathematics to state the basic laws and to analyse quantitatively4 and rigorously their consequences. The module introduces you to concepts and techniques which will be assumed by future modules. These include: complex numbers, functions of a continuous real variable, integration, functions of more than one variable and multiple integration. You will revise relevant parts of the A level syllabus, to cover the mathematical knowledge to undertake first year physics modules, and to prepare you for mathematics and physics modules in subsequent years.

Read more about the Mathematics for Physicists moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Classical Mechanics and Special Relativity

You will study Newtonian mechanics emphasising the conservation laws inherent in the theory. These have a wider domain of applicability than classical mechanics (for example they also apply in quantum mechanics). You will also look at the classical mechanics of oscillations and of rotating bodies. It then explains why the failure to find the ether was such an important experimental result and how Einstein constructed his theory of special relativity. You will cover some of the consequences of the theory for classical mechanics and some of the predictions it makes, including: the relation between mass and energy, length-contraction, time-dilation and the twin paradox.

Read more about the Classical Mechanics and Special Relativity moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Physics Foundations

You will look at dimensional analysis, matter and waves. Often the qualitative features of systems can be understood (at least partially) by thinking about which quantities in a problem are allowed to depend on each other on dimensional grounds. Thermodynamics is the study of heat transfers and how they can lead to useful work. Even though the results are universal, the simplest way to introduce this topic to you is via the ideal gas, whose properties are discussed and derived in some detail. You will also cover waves. Waves are time-dependent variations about some time-independent (often equilibrium) state. You will look at phenomena like the Doppler effect (this is the effect that the frequency of a wave changes as a function of the relative velocity of the source and observer), the reflection and transmission of waves at boundaries and some elementary ideas about diffraction and interference patterns.

Read more about the Physics Foundations moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Astrophysics Laboratory I

The module introduces experimental science and teaches the skills required for successful laboratory work. These include how to work with apparatus, how to keep a laboratory notebook, how to handle data and quantify errors and how to write scientific reports. The module also asks you to think critically and solve problems.

Read more about the Astrophysics Laboratory I moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Electricity and Magnetism

You will largely be concerned with the great developments in electricity and magnetism, which took place during the nineteenth century. The origins and properties of electric and magnetic fields in free space, and in materials, are tested in some detail and all the basic levels up to, but not including, Maxwell's equations are considered. In addition, the module deals with both dc and ac circuit theory including the use of complex impedance. You will be introduced to the properties of electrostatic and magnetic fields, and their interaction with dielectrics, conductors and magnetic materials.

Read more about the Electricity and Magnetism moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Physics Programming Workshop

This module introduces the Python programming language. It is quick to learn and encourages good programming style. Python is an interpreted language, which makes it flexible and easy to share. It allows easy interfacing with modules, which have been compiled from C or Fortran sources. It is widely used throughout physics and there are many downloadable free-to-user codes available. The module also looks at visualisation of data.

Read more about the Physics Programming Workshop moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Astronomy

The Universe contains a bewildering variety of objects - black-holes, red giants, white dwarfs, brown dwarfs, gamma-ray bursts and globular clusters - to name a few. The module introduces these, and shows how, with the application of physics, we have come to know their distances, sizes, masses and natures. The module starts with the Sun and planets and moves on to the Universe as a whole.

Read more about the Astronomy moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Quantum Phenomena

This module explains how classical physics is unable to explain the properties of light, electrons and atoms. (Theories in physics, which make no reference to quantum theory, are usually called classical theories.) It covers the most important contributions to the development of quantum physics including: wave-particle 'duality', de Broglie's relation and the Schrodinger equation. It also looks at applications of quantum theory to describe elementary particles: their classification by symmetry, how this allows us to interpret simple reactions between particles and how elementary particles interact with matter.

Read more about the Quantum Phenomena moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Year Two

Statistical Mechanics, Electromagnetic Theory and Optics

Any macroscopic object we meet contains a large number of particles, each of which moves according to the laws of mechanics (which can be classical or quantum). Yet we can often ignore the details of this microscopic motion and use a few average quantities such as temperature and pressure to describe and predict the behaviour of the object. Why we can do this, when we can do this and how to do it are discussed in the first half of this module.

We also develop the ideas of first year electricity and magnetism into Maxwell's theory of electromagnetism. Establishing a complete theory of electromagnetism has proved to be one of the greatest achievements of physics. It was the principal motivation for Einstein to develop special relativity, it has served as the model for subsequent theories of the forces of nature and it has been the basis for all of electronics (radios, telephones, computers, the lot...).

Read more about the Statistical Mechanics, Electromagnetic Theory and Optics moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Mathematical Methods of Physicists

You will review the techniques of ordinary and partial differentiation and ordinary and multiple integration. You will develop your understanding of vector calculus and discuss the partial differential equations of physics (Term 1). The theory of Fourier transforms and the Dirac delta function are also covered. Fourier transforms are used to represent functions on the whole real line using linear combinations of sines and cosines. Fourier transforms are a powerful tool in physics and applied mathematics. The examples used to illustrate the module are drawn mainly from interference and diffraction phenomena in optics (Term 2).

Read more about the Mathematical Methods of Physicists moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Quantum Mechanics and its Applications

In the first part of this module you will use ideas, introduced in the first year module, to explore atomic structure. You will discuss the time-independent and the time-dependent Schrödinger equations for spherically symmetric and harmonic potentials, angular momentum and hydrogenic atoms. The second half of the module looks at many-particle systems and aspects of the Standard Model of particle physics. It introduces the quantum mechanics of free fermions and discusses how it accounts for the conductivity and heat capacity of metals and the state of electrons in white dwarf stars.

Read more about the Quantum Mechanics and its Applications moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Astrophysics Laboratory II and Skills

This module develops experimental skills in a range of areas of physics and astrophysics. The module introduces the concepts involved in controlling remote instruments using computers and the collection and analysis of astrophysical data. The module explores information retrieval and evaluation, and the oral and written presentation of scientific material.

Read more about the Astrophysics Laboratory II and Skills moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Stars and the Solar System

Our sky is dominated by the Sun and the Moon, the planets and stars, as well as occasional spectacular events that are associated with eclipses, comets, meteorites and supernovae. These objects are bright enough to be visible to the naked eye - they have been the subject of wonder and study for thousands of years. In this module, you will see how modern observations and advanced space probes are changing our knowledge of stars and Solar System objects. Our physical understanding is advancing rapidly and providing us with a basis for the exploration of exoplanetary systems and the more distant Universe.

Read more about the Stars and the Solar System moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Year Three

Quantum Physics of Atoms

The basic principles of quantum mechanics are applied to a range of problems in atomic physics. The intrinsic property of spin is introduced and its relation to the indistinguishability of identical particles in quantum mechanics discussed. Perturbation theory and variational methods are described and applied to several problems. The hydrogen and helium atoms are analysed and the ideas that come out from this work are used to obtain a good qualitative understanding of the periodic table. In this module, you will develop the ideas of quantum theory and apply these to atomic physics.

Read more about the Quantum Physics of Atoms moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Galaxies and Cosmology

Questions about the origin of the Universe, where it is going and how it may get there are the domain of cosmology. In this module, we will ask whether the Universe will continue to expand or ultimately contract. Relevant experimental data include those on the Cosmic Microwave Background radiation, the distribution of galaxies and the distribution of mass in the Universe. Starting from fundamental observations, such as that the night sky is dark and, by appealing to principles from Einstein's General Theory of Relativity, you will develop a description of the Universe and the Big Bang Model.

Read more about the Galaxies and Cosmology moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Black Holes, White Dwarfs and Neutron Stars

In this module, you study the compact objects - white dwarfs, neutron stars and black holes (BH) - that can form when burnt out stars collapse under their own gravity. The extreme conditions in their neighbourhood mean that they affect strongly other objects and even the structure of the space-time around them. Compact objects can accrete material from surrounding gases and nearby stars. In the case of BHs this can lead to the supermassive BHs thought to be at the centre of most galaxies. In the most extreme events (mergers of these objects), the gravitational waves (GW) that are emitted are now beginning to be detected on earth (the first GW detection was reported in 2015 almost exactly 100 years after their prediction by Einstein).

Read more about the Black Holes, White Dwarfs and Neutron Stars moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Electrodynamics

Einstein's 1905 paper on special relativity was called "On the electrodynamics of moving bodies". It derived the transformation of electric and magnetic fields when moving between inertial frames of reference. The module works through this transformation and looks at its implications. The module starts by covering the magnetic vector potential, A, which is defined so that the magnetic field B=curl A and which is a natural quantity to consider when looking at relativistic invariance.

The radiation (EM-waves) emitted by accelerating charges are described using retarded potentials, which are the time-dependent analogs of the usual electrostatic potential and the magnetic vector potential, and have the wave-like nature of light built in. The scattering of light by free electrons (Thomson scattering) and by bound electrons (Rayleigh scattering) will also be described. Understanding the bound electron problem led Rayleigh to his celebrated explanation of why the sky is blue and why sunlight appears redder at sunrise and sunset.

Read more about the Electrodynamics moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Mathematical Methods of Physicists III

You will study the calculus of variations and complex variables. The calculus of variations is concerned with the minimisation of integrals over sets of differentiable functions. Such integrals crop up in many contexts. For example, the ground state wavefunction of a quantum system minimises the expectation value of the energy. The classical equations of motion for both particles and fields can often be obtained by minimising what is called the action functional (which may be familiar if you took Hamiltonian Mechanics). Requiring functions of complex variables to be analytic (differentiable with respect to their complex argument in some domain) turns out to constrain such functions very strongly. As the module shows: only the constant function is differentiable everywhere, analytic functions are actually equal to their Taylor series and not just approximated by them, a function that is once differentiable is differentiable infinitely many times. Complex differentiable functions are clean, they are fun and they are important in physics. For example, response functions like the dielectric response function are analytic functions with the domain, in which the function is analytic, being related to causality.

Read more about the Mathematical Methods of Physicists III moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Astrophysics Group Project

The researching, evaluation and presentation of scientific information are important skills that you used in the 2nd year Physics Skills modules. This project is designed to further develop these skills. Your class will be divided into groups, each of about six members. Each group will then be assigned a topic in astrophysics to be researched and reported on, and they will also each be allocated a member of Academic Staff who will act as both a mentor and an assessor. The project will provide you with the chance of studying in-depth some particular field of astrophysics at research level.

Read more about the Astrophysics Group Project moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Astrophysics Laboratory III

You will further develop the experimental skills you have acquired over the first two years. The experiments are less structured than in earlier years, more open-ended and performed in groups. This is to encourage you to take responsibility for the planning and direction of experiments while preparing you for independent research within a team.

Read more about the Astrophysics Laboratory III moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).

Year Four

Astrophysics Project

The project will provide you with experience of working on an extended project in astrophysics in a research environment. You will normally work in pairs. Through discussions with your supervisor, you will establish a plan of work which you will frequently review as you progress. In general, the project will not be closely prescribed and will contain an investigative element.

Read more about the Astrophysics Project moduleLink opens in a new window, including the methods of teaching and assessment (content applies to 2023/24 year of study).


Optional modules

Optional modules can vary from year to year. Example optional modules may include:

  • General Relativity
  • Planets, Exoplanets and Life
  • Solar and Space Physics
  • High Performance Computing in Physics
  • The Distant Universe
  • Condensed Matter Physics
  • Quantum Computation and Simulation
  • Advanced Quantum Theory

Assessment

In any year, about 30% of the overall mark is assigned to coursework.

The weighting for each year's contribution to your final mark is 10:30:60 for the BSc course and 10:20:30:40 for the MPhys course.

Teaching

  • Lectures
  • Laboratory classes
  • Time on telescopes
  • Skills classes

Class sizes

Lecture size will naturally vary from module to module. The first year core modules may have up to 350 students in a session, whilst the more specialist modules in the later years will have fewer than 100.

The core modules in the first year are supported by weekly classes, at which you and your fellow students meet in small groups with a member of the research staff or a postgraduate student.

Tutorials with your personal tutor are normally with a group of 5 students.


Typical contact hours

You should expect to attend around 12 lectures a week and spend 7 hours on supervised practical (mainly laboratory and computing) work.

For each 1 hour lecture, you should expect to put in a further 1 to 2 hours of private study.

Tuition fees

Tuition fees cover the majority of the costs of your study, including teaching and assessment. Fees are charged at the start of each academic year. If you pay your fees directly to the University, you can choose to pay in instalments.

Undergraduate fees

On 4 November the UK government announced an increase in the tuition fee cap for Home students for academic year 2025/26. The University of Warwick’s Executive Board has consequently confirmed a change in fees from the previously advertised rate to £9,535.

The University expects to increase fees for future years in line with any inflationary uplift as determined by the UK government.


How are fees set?

The UK Government sets tuition fee rates.

To learn more about how the UK student fees and maintenance loans are set, please visit the UK Government websiteLink opens in a new window and UCASLink opens in a new window.

Undergraduate fees

If you are an overseas student enrolling in 2025-26, your annual tuition fees will be as follows:

  • Band 1 – £26,290 per year (classroom-based courses, including Humanities and most Social Science courses)
  • Band 2 – £33,520 per year (laboratory-based courses, plus Maths, Statistics, Theatre and Performance Studies, Economics, and courses provided by Warwick Business School, with exceptions)

Tuition fees for 2026 entry have not been set. We will publish updated information here as soon as it becomes available, so please check back for updates about 2026 fee rates before you apply.


Fee status guidance

We carry out an initial fee status assessment based on the information you provide in your application. Students will be classified as Home or Overseas fee status. Your fee status determines tuition fees, and what financial support and scholarships may be available. If you receive an offer, your fee status will be clearly stated alongside the tuition fee information.

Do you need your fee classification to be reviewed?

If you believe that your fee status has been classified incorrectly, you can complete a fee status assessment questionnaire. Please follow the instructions in your offer information and provide the documents needed to reassess your status.

Find out more about how universities assess fee status.Link opens in a new window


Additional course costs

As well as tuition fees and living expenses, some courses may require you to cover the cost of field trips or costs associated with travel abroad.

For departmental specific costs, please see the Modules tab on this web page for the list of core and optional core modules with hyperlinks to our Module CatalogueLink opens in a new window (please visit the Department’s website if the Module Catalogue hyperlinks are not provided).

Associated costs can be found on the Study tab for each module listed in the Module Catalogue (please note most of the module content applies to 2024/25 year of study). Information about module specific costs should be considered in conjunction with the more general costs below:

  • Core text books
  • Printer credits
  • Dissertation binding
  • Robe hire for your degree ceremony

Further information

Find out more about tuition fees from our Student Finance team.


Scholarships and bursaries

Learn about scholarships and bursaries available to undergraduate students.

We offer a number of undergraduate scholarships and bursaries to full-time undergraduate students. These include sporting and musical bursaries, and scholarships offered by commercial organisations.

Find out more about funding opportunities for full-time students.Link opens in a new window

If you are an international student, a limited number of scholarships may be available.

Find out more information on our international scholarship pages.Link opens in a new window


You may be eligible for financial help from your own government, from the British Council or from other funding agencies. You can usually request information on scholarships from the Ministry of Education in your home country, or from the local British Council office.


Warwick Undergraduate Global Excellence Scholarship

We believe there should be no barrier to talent. That's why we are committed to offering a scholarship that makes it easier for gifted, ambitious international learners to pursue their academic interests at one of the UK's most prestigious universities.

Find out more about the Warwick Undergraduate Global Excellence Scholarship.Link opens in a new window

We provide extra financial support for qualifying students from lower income families. The Warwick Undergraduate Bursary is an annual award of up to £2,500 per annum. It is intended to help with course-related costs and you do not have to pay it back.

Find out more about your eligibility for the Warwick Undergraduate Bursary.Link opens in a new window

As part of the 'City of Sanctuary' movement, we are committed to building a culture of hospitality and welcome, especially for those seeking sanctuary from war and persecution. We provide a range of scholarships to enable people seeking sanctuary or asylum to progress to access university education.

Find out more about the Warwick Undergraduate Sanctuary Scholarships for asylum seekers.Link opens in a new window

Further information

Find out more about Warwick undergraduate bursaries and scholarships.

Eligibility for student loans

Your eligibility for student finance will depend on certain criteria, such as your nationality and residency status, your course, and previous study at higher education level.

Check if you're eligible for student finance.

Tuition Fee Loan

You can apply for a Tuition Fee Loan to cover your tuition fees. It is non-means tested, which means the amount you can receive is not based on your household income. The Loan is paid directly to the University so, if you choose to take the full Tuition Fee Loan, you won’t have to set up any payments.

Maintenance Loan for living costs

You can apply for a Maintenance Loan towards your living costs such as accommodation, food and bills. This loan is means-tested, so the amount you receive is partially based on your household income and whether you choose to live at home or in student accommodation.

Find out more about government student loans for home students residing in England.Link opens in a new window

If you’re starting a course on or after 1 August 2021, you usually must have settled or pre-settled status under the EU Settlement SchemeLink opens in a new window to get student finance.

Tuition Fee Loan

If you are an EU student and eligible for student finance you may be able to get a Tuition Fee Loan to cover your fees. It is non-means tested, which means the amount you may receive is not based on your household income. The Loan is paid directly to the University so, if you choose to take the full Tuition Fee Loan, you won't have to set up any payments.

Help with living costs

If you struggle to meet your essential living costs, our Student Funding team Link opens in a new windowwill be on hand to offer advice and support.

There are a number of options that may be available to you including government, bursary and/or hardship support. Warwick also has a number of bursaries and scholarships Link opens in a new windowthat you may be eligible to apply for.

Repaying your loans

You will repay your loan or loans gradually once you are working and earning above a certain amount. For students starting their course after 1 August 2023, the repayment threshold is £25,000. Repayments will be taken directly from your salary if you are an employee. If your income falls below the earnings threshold, your repayments will stop until your income goes back up above this figure.

Find out more about repaying your student loanLink opens in a new window.

Your career

Graduates from this course have gone on to work for employers including:

  • Deloitte Digital
  • Brunei Shell Petroleum
  • British Red Cross
  • EDF Energy
  • Civil Service
  • Deutsche Bank

They have pursued roles such as:

  • Physical scientists
  • Finance and investment analysts
  • Programmers and software development professionals
  • Graphic designers
  • Researchers

Helping you find the right career

Our department has a dedicated Senior Careers Consultant. They offer impartial advice and guidance together with workshops and events throughout the year. Previous examples of workshops and events include:

  • Career options with a Physics Degree
  • Careers in Science
  • Warwick careers fairs throughout the year
  • Physics Alumni Evening
  • Careers and Employer networking event for Physics students

Discover more about careers support at Warwick.

Physics at Warwick

Physics is about beautiful ideas and deep questions

Physics aims to observe and explain the behaviour of the physical universe. It looks for laws which apply everywhere and to everything. One of the joys of physics is seeing how a simple principle, established after studying one problem, can go on to explain seemingly unrelated phenomena.

Find out more about us on our websiteLink opens in a new window


Our courses

Our three-year courses

Our flexible courses offer excellent teaching informed by our research. You can tailor your course to your interests with optional modules in your later years of study.

Our four-year courses

These courses share the same core as the three-year versions. They then let you dig deeper with specialised modules. You'll undertake a dedicated research project as well.

Related degrees

Life at Warwick

Within a close-knit community of staff and students from all over the world, discover a campus alive with possibilities. A place where all the elements of your student experience come together in one place. Our supportive, energising, welcoming space creates the ideal environment for forging new connections, having fun and finding inspiration.

Keep exploring life at Warwick

Find out how to apply to us, ask your questions, and find out more.

Warwick Accommodation

Finding the right accommodation is key to helping you settle in quickly.

We have 12 self-catering undergraduate halls of residence on campus.

Our student property management and lettings agency manages more than 8,000 rooms both on and off campus, and provides advice to all full-time undergraduates.

Explore Warwick Accommodation

Our campus

You won't be short of ways to spend your time on campus - whether it's visiting Warwick Arts Centre, using our incredible new sports facilities, socialising in our bars, nightclub and cafés, or enjoying an open-air event. Or if you need some peace and quiet, you can explore lakes, woodland and green spaces just a few minutes’ walk from central campus.

Explore our campus

Food and drink

We have lots of cafés, restaurants and shops on campus. You can enjoy great quality food and drink, with plenty of choice for all tastes and budgets. There is a convenience store on central campus, as well as two supermarkets and a small shopping centre in the nearby Cannon Park Retail Park. Several of them offer delivery services to help you stay stocked up.

And don't miss our regular food market day on the Piazza with tempting, fresh and delicious street food. Soak up the atmosphere and try something new, with mouth-watering food for all tastes.

Explore food and shops

Explore Students' Union venues

Clubs and societies

We currently have more than 300 student-run societies.

So whether you’re into films, martial arts, astronomy, gaming or musical theatre, you can instantly connect with people with similar interests.

Or you could try something new, or even form your own society.

Explore our societies

Sports and fitness

Staying active at Warwick is no sweat, thanks to our amazing new Sports and Wellness Hub, indoor and outdoor tennis centre, 60 acres of sports pitches, and more than 60 sports clubs.

Whether you want to compete, relax or just have fun, you can achieve your fitness goals.

Explore sports at Warwick

Studying on campus

Our campus is designed to cater for all of your learning needs.

You will benefit from a variety of flexible, well-equipped study spaces and teaching facilities across the University.

  • The Oculus, our outstanding learning hub, houses state-of-the-art lecture theatres and innovative social learning and network areas.
  • The University Library provides access to over one million printed works and tens of thousands of electronic journals
  • Three Learning Grids offering you flexible individual and group study spaces.

Studying at Warwick

Travel and local area

Our campus is in Coventry, a modern city with high street shops, restaurants, nightclubs and bars sitting alongside medieval monuments. The Warwickshire towns of Leamington Spa and Kenilworth are also nearby.

The University is close to major road, rail and air links. London is just an hour by direct train from Coventry, with Birmingham a 20-minute trip. Birmingham International Airport is nearby (a 20-minute drive).

Travelling from campus

Wellbeing support and faith provision

Our continuous support network is here to help you adjust to student life and to ensure you can easily access advice on many different issues. These may include managing your finances and workload, and settling into shared accommodation. We also have specialist disability and mental health support teams.

Our Chaplaincy is home to Chaplains from the Christian, Jewish and Muslim faiths. We provide regular services for all Christian denominations and a Shabbat meal every Friday for our Jewish students. There is also an Islamic prayer hall, halal kitchen and ablution facilities.

Student support

Chaplaincy

How to apply

Learn more about our application process.

Key dates

Key dates for your application to Warwick.

Writing your personal statement

Make an impression and demonstrate your passion for your course.

After you've applied

Find out how we process your application.

3 ways to connect

Talk to us

Join us at a live event. You can ask about courses, applying to Warwick, life at Warwick, visas and immigration, and more.

See event calendar


Warwick Experience

Take a virtual, student-led campus tour. Then join an interactive panel session, where you can hear from and chat to our current students and staff.

Book a tour


Student blogs

Explore our student blogs in OurWarwick. You can read about campus life from students themselves, and register to post questions directly to students.

Ask a student

Explore campus with our virtual tour

Our 360 tour lets you:

  • Watch student videos
  • View 360 photography and drone footage
  • Learn about facilities and landmarks

Explore our campus virtually through our 360 campus tour now

Come to an Open Day

Don’t just take it from us, come and see for yourself what Warwick is all about. Whether it's a virtual visit or in-person, our University Open Days give you the chance to meet staff and students, visit academic departments, tour the campus and get a real feel for life at Warwick.

Open Days at Warwick

Sign up for updates

Discover more about our courses and campus life with our helpful information and timely reminders.