Engineering Mathematics

Engineering mathematics offers a unique blend of advanced mathematics and real-world problem solving. Our passion is using mathematics to solve problems arising from every branch of engineering and more widely across medicine, science and technology.

Our students solve problems ranging from creating algorithms that exploit trends in social media data, to analysing the behaviour of wind turbines, to designing assistance devices for the elderly. Each problem depends fundamentally on mathematics.

Our courses are flexible with strong mathematical content and a wide choice of options.

This programme is IET accredited. MEng graduates who complete a period of suitable industrial experience after graduation, may use the title Chartered Engineer (CEng) and apply to use the 'Eur Ing' title, which is respected throughout Europe.

Why study Engineering Mathematics at Bristol?

Our engineering mathematics courses equip you with the mathematical modelling, computational and data analysis skills necessary to solve challenging, real-world problems faced by engineers and scientists.

You will learn the very latest techniques from enthusiastic staff and will be able to apply them in our experimental labs. Above all, we encourage you to think widely and freely and to develop your own intellectual curiosity.

You will also meet the increasing demand from industry for highly skilled graduates who can work across traditional discipline boundaries.  

The courses are accredited by the IET and IMA, providing our graduates with all the requirements to become a Chartered Engineer or Chartered Mathematician.

Engineering students at Bristol also benefit from a dedicated Industrial Liaison Office, which develops engineering-specific industrial links for students.

Download the Engineering Maths leaflet (PDF, 162kB)

What kind of student would this course suit?

This course will suit you if you have strong mathematical skills and the ability to think freely. You should be keen to develop your intellectual curiosity and be eager to solve the real-world technical problems of today and the future.

How is this course taught and assessed?

We use a wide range of teaching methods including lectures, example classes, hands-on laboratory and problem-solving sessions, teamwork and tutorials.

You will develop important transferable skills, including how to work in teams, how to present your arguments clearly in written reports and how to communicate effectively in presentations.

Assessment is through a combination of written exams, coursework, laboratory exercises and oral presentations.

What are my career prospects?

Our graduates have highly marketable technical and transferable skills. Our many connections with industry, through collaborative research and consultancy, mean that our courses remain extremely attractive professionally, and that we are well placed to recommend the best graduate employers. These include companies that recruit mathematicians as well as engineers, such as Airbus, Goldman Sachs and Red Bull Racing.

Find out more about what our students do after graduating.


Important disclaimer information about our courses.

Every day my inbox is flooded with opportunities – internships, research projects, extra-curricular activities – all of which are the University getting students involved. The University is constantly updating its facilities, which reinforces its friendly and inclusive environment.

Alexandra (LLB Law)

Request more information

Ask us a question, sign up for our updates or request a prospectus.

Get in touch

Related subjects

You may also be interested in:

Edit this page