What do you need to get in?
Main entry requirements
Including Maths and Physics A* in either Maths, Physics or Chemistry To continue with Further Maths (if taken to A-level) Chemistry or double science to GCSE or equivalent Excluding General Studies (if taken)
Supplemented by two or more Advanced Highers.
With AA in Maths and Physics. Chemistry or double science to GCSE or equivalent Conditional offers will usually be for AAB if a student is able to take three Advanced Highers; where this is not possible then a student would be expected to achieve AA in two Advanced Highers, as well as an A grade in an additional Higher course taken in Year 6.
Conditional offers would usually be: Extended Diploma with D*D*D to DDD, depending on the course. Diploma with DD plus an A grade at A-level, possibly with one or two * grades, depending on the course. Subsidiary Diploma with D plus two A grades at A-level, possibly with one or two * grades, depending on the course.
with 7 6 6 at HL Including Maths and Physics with 7 in either Chemistry, Maths or Physics Chemistry or double science to GCSE or equivalent
If your qualifications aren’t listed here, you can use our UCAS points guide of 152-165 and refer to the university’s website for full details of all entry routes and requirements.
% applicants receiving offers26%
Provided by UCAS, this is the percentage of applicants who were offered a place on the course last year. Note that not all applicants receiving offers will take up the place, so this figure is likely to differ from applicants to places.
Tuition fee & financial supportNot available
Maximum annual fee for UK students. NHS-funded, sandwich or part-time course fees may vary.
If you live in:
- Scotland and go to a Scottish university, you won’t pay tuition fees
- Northern Ireland and go to an NI uni, you’ll pay £3,805 in tuition fees
- Wales you’ll pay £3,810 in fees and get a tuition fee grant to cover the rest
Every degree course is different, so it’s important to find one that suits your interests and matches the way you prefer to work – from the modules you’ll be studying to how you’ll be assessed. Top things to look for when comparing courses
Modern society is heavily dependent on advanced materials: lightweight composites for faster vehicles, optical fibres for telecommunications and silicon microchips for the information revolution. Materials scientists study the relationships between the structure and properties of a material and how it is made. They also develop new materials and devise processes for manufacturing them. Materials Science is vital for developments in nanotechnology, quantum computing and nuclear fusion, as well as medical technologies such as bone replacement materials. This diverse programme spans the subject from its foundations in physics and chemistry to the mechanical, electrical, magnetic and optical properties of materials, and the design, manufacture and applications of metals, alloys, ceramics, polymers, composites and biomaterials. This work is supported by excellent laboratory and teaching facilities. In a course taught partly by the Saïd Business School, the programme also offers an opportunity to develop an introductory understanding of entrepreneurship (learning how to write a business plan, raise capital and start a company). There are also voluntary options to learn a language through Oxford's Language Centre. The Oxford Materials degree includes in its fourth year the special feature of an eight-month full-time research project, when you join a research team here at Oxford in one of the strongest Departments of Materials in the UK or, occasionally, at an overseas university or in an industrial laboratory (additional costs may be associated with a project outside Oxford). You will learn how to break down a complex problem, design an experiment or model, manage a project and communicate your results. These research skills are transferable to many career paths and are valued highly by employers. The current MEng degree is accredited by the Institute of Materials, Minerals and Mining (IOM3) on behalf of the UK Engineering Council, towards the achievement of Chartered Engineer status. For more information on this course please visit ox.ac.uk/ugmatsci.
There's a reason why Oxford is the world's most famous university, and it's not because of the nice old buildings or pretty countryside. It's not even because we wrote the English dictionary. It's because you'll find here the best academics, widest range of resources and the finest cohort of fellow students anywhere in the world. Oxford students come from more than 140 countries.
How you'll spend your time
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How you'll be assessed
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What do the numbers say for
The percentages below relate to the general subject area at this uni, not to one course. We show these stats because there isn't enough data about the specific course, or where this is the most detailed info made available to us.
What do students think about this subject here?
Here's how satisfied past students were taking courses within this subject area about things such as the quality of facilities and teaching - useful to refer to when you're narrowing down your options. Our student score makes comparisons easier, showing whether overall satisfaction is high, medium or low compared to other unis.
Start building a picture of who you could be studying with by taking a look at the profile of people that have studied this subject here in previous years.
UK / Non-UK
Male / Female
Full-time / Part-time
Typical Ucas points
2:1 or above
Most popular subjects students studied before attending
Here's an idea of the academic background of students from previous years, to give you a flavour of the type of people who take this subject.
What are graduates doing after six months?
Here’s what students are up after they graduate from studying this subject here. We’ve analysed the employment rate and salary figures so you can see at a glance whether they’re high, typical or low compared to graduates in this subject from other universities. Remember the numbers are only measured only six months after graduation and can be affected by the economic climate - the outlook may be different when you leave uni. What do graduate employment figures really tell you?