Physics student using lasersUCAS code: F303
ECTS: 240 credits
Start date: October 2017
Duration: 4 years full-time

LocationSouth Kensington

The study of the universe and its origins; the understanding of how matter behaves through space and time.

You will cover fundamental topics, including electromagnetism, optics, quantum and classical mechanics, relativity, statistical physics and thermodynamics, wave phenomena and the properties of matter.

The fourth year of our MSci Physics courses enable you to achieve a Master's level degree, by completing an additional year consisting of specialised physics modules and the excellent opportunity to complete a research project as part of a research group.

About the course

Overview

What you study

All our degree courses are structured around a common core to ensure that all students have a good grounding in the fundamental aspects of physics, mathematics and experimental methods.

You can then specialise by following themes, such as:

  • Theoretical physics
  • Astrophysics
  • Particle physics and cosmology
  • Quantum optics and photonics
  • Solid state physics

All our degrees include a substantial final-year project undertaken in one of our research groups.

MSci Physics

Our four-year MSci Physics course incorporates a Master's level year of study, which means that you follow a similar programme of studies to BSc Physics students, and continue study for a further year.

The MSci courses are closer to how undergraduate degrees are structured in Europe which are generally four-year programmes.

Which degree course is right for you?

A wide choice is available and there is considerable flexibility in how you make your choice, subject to the degree stream you have chosen.

In your application you only need to specify one course. We will discuss your choice with you and we take a flexible approach to course changes both at admissions stage and during the early years of the course.

This MSci course is designed for those wishing to study at a higher level or pursue a career as an academic or researcher. 

Structure

Modules shown are for the current academic year, and are subject to change depending on your year of entry.

You will cover the fundamentals of Physics in the first two years, and in the third year you will have the choice of advanced mathematics and specialised physics optional modules.

You will normally need to achieve a grade of 40% in each academic year, in order to progress to the next academic year. In the fourth year you must achieve 50%.


Year 1

Core modules
  • Advanced Electronics
  • Electricity and Magnetism, Relativity
  • Laboratory and Computing I
  • Mathematics
  • Measurement and Uncertainty
  • Mechanics, Vibrations and Waves
  • Professional Skills and Basic Electronics I
  • Project
  • Quantum Physics and Structure of Matter

Year 2

Core modules
  • Atomic, Nuclear and Particle Physics
  • Electromagnetism and Optics
  • Laboratory and Computing II
  • Mathematics and Statistics of Measurement
  • Professional Skills II
  • Quantum Mechanics
  • Solid State Physics
  • Thermodynamics and Statistical Physics
Optional modules

You will choose one optional module from the list below.

  • Communicating Physics
  • Environmental Physics
  • Imperial Horizons
  • Mathematical Methods
  • Sun, Stars and Planets

Year 3

You will study a combination of core and optional modules.

Core modules
  • Comprehensive Physics
  • Fluid Dynamics
  • Light and Matter
  • Physics Laboratory III
  • Physics of the Universe
  • Professional Skills III
Optional modules

You choose modules to total 24-27 ECTS credits, and the below groups of modules are given as a guide to what you will have to choose from.

Essay/ Project

You choose one of the following:

  • Physics Essay III
  • Physics Project
Optional modules

You make the majority of choices from below:

  • Advanced Classical Physics
  • Astrophysics
  • Complexity & Networks
  • Computational Physics
  • Foundations of Quantum Mechanics
  • Group Theory
  • Imaging & Biophotonics
  • Lasers
  • Medical Imaging: Nuclear Diagnostics & MRI
  • Medical Imaging: X-Rays & Ultrasound
  • Plasma Physics
  • Principles of Instrumentation
  • Statistical Mechanics

You can choose one module from below, though it is not compulsory to do so:

  • Communicating Physics
  • Environmental Physics
  • Mathematical Methods
  • Sun, Stars & Planets

You can choose one module from below, or two modules marked with an asterisk, though it is not compulsory to do so:

  • Advanced Hydrodynamics*
  • Advanced Particle Physics
  • Atmospheric Physics
  • Computational Neuroscience
  • Cosmology
  • General Relativity
  • Information Theory*
  • Laser Technology
  • Nanotechnology in Consumer Electronics*
  • Optical Communications*
  • Plasmonics & Metamaterials
  • Quantum Field Theory
  • Quantum Information
  • Quantum Optics
  • Quantum Theory of Matter
  • Space Physics
  • Unification
Humanities and Business

You can choose one of the modules below to broaden your degree (not compulsory).


Year 4

The fourth year is the Master's yearYou will have two core modules, preparing you to complete a research project in an area of interest, which relies on substantial individual study.

Core modules
  • MSci Project
  • Research Interfaces
Optional modules

You choose a majority of modules from Group 1, and pick one module from Group 2.

Some of the modules listed below are available in both your third and fourth years, and you will choose different modules to those already studied in the year before.

Your choices will total 30-35 ECTS credits, and a majority of modules are worth 6 ECTS credits each.

Group 1
  • Advanced Particle Physics
  • Atmospheric Physics
  • Computational Neuroscience
  • Nanotechnology in Consumer Electronics
  • General Relativity
  • Advanced Hydrodynamics
  • Laser Technology
  • Optical Communications 
  • Information Theory
  • Plasmonics and Metamaterials
  • Quantum Field Theory
  • Quantum Information
  • Quantum Optics
  • Quantum Theory of Matter
  • Cosmology
  • Space Physics
  • Unification
Group 2
  • Advanced Classical Physics
  • Astrophysics
  • Communicating Physics
  • Complexity and Networks
  • Computational Physics
  • Foundations of Quantum Mechanics
  • Group Theory
  • Imaging and Biophotonics1
  • Lasers1
  • Medical Imaging: Nuclear Diagnostics and MRI1
  • Medical Imaging: X-Rays and Ultrasound1
  • Plasma Physics
  • Principles of Instrumentation
  • Statistical Mechanics

1 You may choose two modules marked (1) or choose any one of the other modules listed

 You also have the choice of modules from Imperial Horizons and the Business School within Group 2.

It is important that you take a majority of your choices from the groups of modules in Years 3 and 4, where this has been indicated.

Teaching and assessment

Teaching

You will be taught through a combination of lectures, tutorials, laboratory classes and computing labs. You will be able to utilise the office hours of staff from the department to discuss progress.

There will also be group and individual project work, in order to ensure our degrees provide a strong set of additional skills, such as presentational and communicative skills.

Assessment

Our Physics degrees use a variety of assessment methods, the below list provides a guide to what you can expect:

  • Written examinations
  • Assessed problem sheets
  • Laboratory and project reports
  • Continuous assessments, e.g. essay writing
  • Group and individual presentations

Key Information Set (KIS)

Additional details about how this course is taught and assessed are provided in the KIS (Key Information Set).

The KIS is a set of statistics which all universities use to describe how their courses are taught and assessed. This allows students to compare similar courses at different institutions.

The KIS describes the percentage of time which students typically spend in timetabled activity and in independent study for each year of their course as well the percentage of assessment which is exams, coursework or practical. An overview of the KIS is shown in the widget at the bottom of the page and further detail (including a year-by-year breakdown) is available via unistats.

Entry requirements

We welcome students from all over the world and consider all applicants on an individual basis. If your qualifications are not listed here, please see the Department of Physics' website for information on a range of international qualifications.

A-levels

We require A*A*A overall, to include:

  • A* in Mathematics
  • A*/A in Physics
  • A*/A in another subject
Practical endorsement (practical science assessment)

If you are made an offer you will be required to achieve a pass in the practical endorsement in all science subjects that form part of the offer.

International Baccalaureate

We require a score of 39 points overall, to include:

  • 7, 6, 6 at higher level, which must include Mathematics and Physics

Other qualifications

We also welcome applications from candidates with Scottish Advanced Highers, the International, European and French Baccalaureates, the German Abitur and certain other qualifications giving university entrance in other countries. Please see the Department of Physics' website for details.

English language requirements (all candidates)

All candidates must demonstrate a minimum level of English language proficiency for admission to the College.

For admission to this course, you must achieve the standard College requirement in the appropriate English language qualification. For details of the minimum grades required to achieve this requirement, please see the English language requirements for undergraduate applicants.

Selection process

If your UCAS application shows that you are suitable you will be invited for an interview. Because we receive many more excellent applications than we have places available, our interviews will involve some technical discussions so that we can assess candidates with similar academic records and predictions.

You will be given the opportunity to have lunch with our undergraduates, and you will meet with a member of the admissions team. This meeting will help you find out more about the course, our Department and College facilities, and social life in general.

It also gives us the chance to assess your suitability for the course, to learn about your interests and motivation, and to decide whether to offer you a place.

If you have not decided exactly which of the courses you want to apply for you can use the interview to discuss your choice with us. You will normally be able to see one of the labs and something of the research work.

Candidates who are unable (for travel reasons) to attend an interview will be assessed on the basis of their UCAS applications but we are keen to interview candidates whenever this is possible.

Tuition fees and funding

Home and EU students

2017 entry:

£9,250 per year

The UK government has confirmed that universities that have achieved a ‘meet expectations’ award – which includes Imperial – will, under the first year of the new Teaching Excellence Framework (TEF), be able to raise their fees in 2017. The rise is an inflationary amount of 2.8% to a maximum of £9,250. The measure of inflation used is RPI-X (the retail price index, excluding mortgage interest payments). You should expect the fee to increase beyond 2017 for each year that your course lasts, subject to UK government regulations on fee increases.

The UK government has also confirmed that EU students starting or continuing their studies in the 2017–18 academic year will continue to pay the Home rate of tuition fees for the duration of their course. EU students will also remain eligible for the same government funding support as they are now, including the Tuition Fee Loan. This access to government funding will continue throughout your course, even if the UK exits the EU during this time. 

Islands and overseas students

2017 entry:

£27,000 per year

Please note that the tuition fee amount you will pay may increase each year.

Government funding

The level of tuition fees you pay is based on your fee status, which we assess based on UK government legislation. Find out more about fee status assessments.

Home and EU students (with the exception of Graduate Medicine students) can apply for a Tuition Fee Loan from the Government to cover the full cost of their fees each year.

Home students may also be eligible for a Maintenance Loan to help with their living costs.

Bursaries and scholarships

Imperial Bursary

The Imperial Bursary is available to any Imperial Home undergraduate student (except Graduate Medicine students) whose household income falls below £60,000 per year.

It is designed to ease the cost of London living by providing support on a sliding scale, from £2,000 up to £5,000 per year.

As long as your household income remains below £60,000 you will automatically qualify for a bursary for every year of undergraduate study.

The bursary is paid on top of any government loans to which you are entitled and does not need to be paid back. Find out more about the Imperial Bursary.

Scholarships

Our President’s Undergraduate scholarships are available to all undergraduate applicants studying an undergraduate degree for the first time who have applied to the College by 15 October.

They’re worth £1,000 for each undergraduate year of study. There are up to 112 awards available for students starting their studies in 2017–18.

A wide range of other scholarships is also available. Find out which scholarships you may be eligible for by using our scholarships search tool.

To find out more about the range of financial support available please see our Fees and Funding website.

How to apply

UCAS Apply system

To apply to study at Imperial you must use the online application system managed by the Universities and Colleges Admissions Service (UCAS).

The UCAS code for Imperial College London is I50.

Application deadlines

All applications which include choices for medicine at Imperial must be submitted to UCAS by 18.00 (UK time) on 15 October 2016 for entry in October 2017. 

The deadline for other courses at Imperial starting in 2017 is 18.00 (UK time) on 15 January 2017.

Students at a school/college registered with UCAS

All UK schools and colleges and a small number of EU and international institutions are registered with UCAS.

To make it clear which school or college you are applying from you will need to ask one of your teachers or advisers for the UCAS buzzword. You will need to enter this in UCAS’s Apply system when you register.

See our How to apply section for further guidance.

Independent applicants and students at schools/colleges not registered with UCAS

If you’re applying independently or from a school/college not registered with UCAS you will still need to use UCAS’s Apply system. You will not need a UCAS buzzword.

See our How to apply section for further guidance.

Academic Technology Approval Scheme

An ATAS certificate is required for overseas students applying for this course.

Your Tier 4 visa application, or extension of stay, will automatically be refused if you need an ATAS certificate and cannot provide one.

For further guidance on obtaining an ATAS certificate please see the information on our International Student Support team website.

Tracking your application

Once you’ve completed your application and it’s been submitted through UCAS’s Apply system, you can use UCAS’ Track system to follow its progress and manage your choices.

Professional accreditation and associateship

Accreditation

All of our Physics degrees are accredited by the Institute of Physics.

Associateship

They also lead to the award of the Associateship of the Royal College of Science (ARCS).

What our graduates do

Imperial's Physics graduates are sought after by a wide range of employers – for example, the electronics industry needs physicists to design next-generation display technologies, lasers, optical fibres, and advanced semiconductor devices. Increasingly, the energy sector looks to physicists to improve photovoltiac cells for solar energy generation, to optimise wave and wind power technologies, and to improve the efficiency of electrical components.

Recent graduates of the Department have become:

  • Research Analyst, National Physical Laboratory
  • R&D Engineer, BBC
  • Technology Consultant, IBM
  • Graduate Trainee, European Space Agency
  • Software Engineer, Ocado Technology