UCAS code | G1N7 |
---|---|
Duration | 4 years |
Entry year | 2025 |
Campus | Streatham Campus |
Discipline | Mathematics |
Contact | Web: Enquire online |
Typical offer | A levels: A*AA |
---|---|
A-Level: AAB |
UCAS code | G2N2 |
---|---|
Duration | 5 years |
Entry year | 2025 |
Campus | Streatham Campus |
Discipline | Mathematics |
Contact | Web: Enquire online |
Typical offer | A levels: A*AA |
---|---|
A-Level: AAB |
Overview
- Taught in partnership between Exeter’s Mathematics department and The University of Exeter’s triple-accredited Business School
- Explore modern economics, including topics from inflation to the control of monopoly power, and from the study of developing countries to the finance of multinational companies
- Opportunity to extend your degree and spend a ‘Year in Industry’ at companies such as Lloyds Banking Group, Coca-Cola, Met Office and PwC
- In your fourth year you’ll complete an advanced research-led project supervised by a member of staff from a relevant research group
- Previous study of Economics is not required to join this programme
Top 15 in the UK for Economics
14th in the Complete University Guide 2025 and joint 15th in The Times and The Sunday Times Good University Guide 2025
Top 20 in the UK for Mathematics
18th in the Complete University Guide 2025
Study abroad at one of our partner universities in Europe, USA, Canada, Australia and China
Top 15 in the UK for graduate prospects
Joint 12th for Mathematics graduate prospects in the Complete University Guide 2025
Top 15 in the UK for Economics
14th in the Complete University Guide 2025 and joint 15th in The Times and The Sunday Times Good University Guide 2025
Top 20 in the UK for Mathematics
18th in the Complete University Guide 2025
Study abroad at one of our partner universities in Europe, USA, Canada, Australia and China
Top 15 in the UK for graduate prospects
Joint 12th for Mathematics graduate prospects in the Complete University Guide 2025
Entry requirements (typical offer)
Qualification | Typical offer | Required subjects |
---|---|---|
A-Level | A*AA | GCE AL Maths grade A Candidates may offer GCE AL Maths, Pure Maths or Further Maths. |
IB | 38/766 | HL6 in Mathematics (Analysis and Approaches) |
BTEC | D*DD | Applicants studying a BTEC Extended Diploma will also require GCE AL Maths grade A |
GCSE | 4 or C | Grade 4/C in GCSE English language |
Access to HE | 30 L3 credits at Distinction Grade and 15 L3 credits at Merit Grade | 15 L3 credits at Distinction Grade in an acceptable Mathematics subject area |
T-Level | T-Levels not accepted | N/A |
Contextual Offer | A-Level: AAB |
Specific subject requirements must still be achieved where stated above. Find out more about contextual offers. |
Other accepted qualifications | ||
English language requirements |
International students need to show they have the required level of English language to study this course. The required test scores for this course fall under Profile B2. Please visit our English language requirements page to view the required test scores and equivalencies from your country. |
NB General Studies is not included in any offer.
Grades advertised on each programme webpage are the typical level at which our offers are made and provide information on any specific subjects an applicant will need to have studied in order to be considered for a place on the programme. However, if we receive a large number of applications for the programme we may not be able to make an offer to all those who are predicted to achieve/have achieved grades which are in line with our typical offer. For more information on how applications are assessed and when decisions are released, please see: After you apply
International Foundation programmes
Preparation for entry to Year 1 of an undergraduate degree:
Course content
The modules we outline here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand.
In addition to taking core modules in mathematics you will study the basic concepts and principles of micro-economics, and see how it can be applied to a variety of problems.
Compulsory modules
Code | Module | Credits |
---|---|---|
MTH1000 | Foundations | 0 |
MTH1001 | Mathematical Structures | 30 |
MTH1002 | Mathematical Methods | 30 |
MTH1004 | Probability, Statistics and Data | 30 |
BEE1036 | Economics I | 15 |
BEE1037 | Economics II | 15 |
In your second year you’ll gain a deeper understanding of the tools used in microeconomic analysis. You’ll also have the opportunity to choose from several optional modules in Mathematics including Vector Calculus and Algebra.
Compulsory modules
Code | Module | Credits |
---|---|---|
BEE2025 | Microeconomics II | 30 |
Optional modules
Code | Module | Credits |
---|---|---|
Select between 60 and 90 credits: | ||
MTH2003 | Differential Equations | 15 |
MTH2004 | Vector Calculus and Applications | 15 |
MTH2008 | Real Analysis | 15 |
MTH2009 | Complex Analysis | 15 |
MTH2010 | Groups, Rings and Fields | 15 |
MTH2011 | Linear Algebra | 15 |
You may select 0 to 30 credits: | ||
XXXXXXX | Free Choice | 30 |
If you choose the ‘with a Year in Industry’ variant of this degree, your placement will take place in the third year of this five-year degree. For more information about the ‘with a Year in Industry’ programme, please see the course variants.
In your third year you’ll learn how mathematical techniques are used in valuing and managing financial instruments, and how statistical techniques are applied to economic data. You’ll also have the freedom to choose modules in Mathematics from across the department such as Fluid Dynamics and Theory of Weather and Climate. 30 credits may be chosen from outside the areas of mathematics and economics.
Compulsory modules
Code | Module | Credits |
---|---|---|
BEE3* | Level 3 Economics options | 30 |
Optional modules
Code | Module | Credits |
---|---|---|
Select between 15 and 30 credits: | ||
EMP3001 | Commercial and Industrial Experience | 15 |
MTH3035 | Mathematics Group Project | 15 |
Select between 45 and 75 credits: | ||
MTH3001 | Theory of Weather and Climate | 15 |
MTH3004 | Number Theory | 15 |
MTH3006 | Mathematical Biology and Ecology | 15 |
MTH3007 | Fluid Dynamics | 15 |
MTH3008 | Partial Differential Equations | 15 |
MTH3011 | Nonlinear Systems and Control | 15 |
MTH3013 | Applied Differential Geometry | 15 |
MTH3019 | Mathematics: History and Culture | 15 |
MTH3022 | Graphs, Networks and Algorithms | 15 |
MTH3024 | Stochastic Processes | 15 |
Select between 45 and 75 credits: | ||
MTH3026 | Cryptography | 15 |
MTH3030 | Mathematics of Climate Change | 15 |
MTH3038 | Galois Theory | 15 |
MTH3039 | Computational Nonlinear Dynamics | 15 |
MTH3040 | Topology and Metric Spaces | 15 |
MTH3042 | Integral Equations | 15 |
MTH3050 | Functional Analysis | 15 |
You may select 0 to 30 credits: | ||
Free Choice - up to 30 credits | 30 | |
NSC3009 | Aerosols, Clouds and Climate | 15 |
The focus of your final year will be a research-led project through which you will explore a topic of your choice. You’ll be supervised by an academic with expertise in your chosen field and gain experience working as an independent researcher.
Compulsory modules
Code | Module | Credits |
---|---|---|
MTHM003 | Analysis and Computation for Finance | 15 |
MTHM006 | Mathematical Theory of Option Pricing | 15 |
MTHM032 | Mathematics, Business and Finance Project | 30 |
Optional modules
Code | Module | Credits |
---|---|---|
Select between 15 and 45 credits: | ||
BEAM035 | Derivatives Pricing | 15 |
BEEM113 | Advanced Econometrics | 15 |
BEEM102 | Quantitative Research Techniques 1 | 15 |
BE*M*** | Business School M-level module | 15 |
You may select up to 45 credits: | ||
MTHM001 | Functional Analysis | 15 |
MTHM004 | Fractal Geometry | 15 |
MTHM009 | Advanced Topics in Mathematical & Computational Biology | 15 |
MTHM010 | Representation Theory of Finite Groups | 15 |
MTHM018 | Dynamical Systems and Chaos | 15 |
MTHM019 | Fluid Dynamics of Atmospheres and Oceans | 15 |
MTHM022 | Dynamics and Evolution of Biological Systems | 15 |
MTHM023 | Modelling the Weather and Climate | 15 |
MTHM024 | Mathematical Analysis of Biological Systems | 15 |
MTHM028 | Algebraic Number Theory | 15 |
MTHM029 | Algebraic Curves | 15 |
MTHM030 | Waves, Instabilities and Turbulence | 15 |
MTHM031 | Magnetic Fields and Fluid Flows | 15 |
MTHM041 | Analytic Number Theory | 15 |
MTHM045 | Space Weather and Plasmas | 15 |
MTHM048 | Ergodic Theory | 15 |
MTHM052 | Mid-Latitude Weather Systems | 15 |
MTHM062 | Data-driven Analysis and Modelling of Dynamical Systems | 15 |
MTHM063 | Uncertainty Quantification | 15 |
NSCM005 | Mathematical Modelling in Biology and Medicine | 15 |
You may select up to 30 credits: | ||
Free Choice of level M Modules | 30 | |
You may select up to 15 credits: | ||
***3*** | Free choice of level 3 module | 15 |
Course variants
UCAS code: G2N2
The MSci Mathematics with Economics with a Year in Industry programme includes an industrial placement which takes place in the third year of this five year degree.
Your placement will be spent working in an appropriate business or industry related to mathematics, and you will benefit from our established connections with local, national and multinational organisations. As well as increasing your first-hand knowledge, you’ll also improve many personal and transferable skills, making new contacts and enhancing your employability.
Does it count towards my degree?
Yes, it’s worth 120 credits.
How does it affect my tuition fee?
During this year you will pay a reduced tuition fee. Visit the Tuition Fees page for more information.
How do I apply?
You can apply for this programme through UCAS using the code. You can also transfer to the Year in Industry programme from BSc Mathematics with Economics during your first year.
Preparation and support
We will help you to prepare for your work placement from early in your studies. A special module 'Employability and Placement Preparation’ takes place at the start of your first year. This is an opportunity to start thinking about your placement well in advance. You will also be invited to attend workshops offering guidance and support such as ‘Making the most of your placement’ and ‘How to use your placement as an individual project’.
Fees
Tuition fees for 2025 entry
UK students: £9,535 per year
International students: £29,800 per year
Scholarships
The University of Exeter has many different scholarships available to support your education, including £5 million in scholarships for international students, such as our Global Excellence Scholarships*. Financial support is also available for students from disadvantaged backgrounds, lower income households and other under-represented groups to help them access, succeed and progress through higher education.
* Terms and conditions apply. See online for details.
Learning and teaching
All our degrees involve a combination of teaching methods, including lectures, seminars, examples classes, workshops and tutorials. Most modules in mathematics involve three one-hour lectures per week, so you typically have 12 lectures per week. In the first year there are tutorial classes for each module every fortnight, except for modules involving computing or project work. Thus in the first year you would typically have around 16 contact hours per week. In the first term, the ‘Foundations’ module helps you with the transition from A level to university mathematics.
Private study and support
In addition to lectures and seminars, you should spend about 20 hours per week in private study. Working through examples and solving problems is a vital part of learning mathematics, and we advise you attempt all coursework problems, whether formally assessed or not. You will be allocated a personal tutor who will be happy to advise or put you in touch with support services and you are encouraged to discuss mathematical problems or questions with tutors and lecturers who advertise regular office hours. Extra support is available, for example through lunchtime mathematics surgeries or our peer mentor scheme, and we have an active student-staff liaison committee.
Project and computer work
There are modules at all levels that involve project work and report writing, and the final year project is a major piece of research and writing that allows you to go into depth for a specific area under the guidance of a member of academic staff. You can choose from wide range of possible project topics each year, or negotiate a topic/title with a member of academic staff. Several of the modules develop skills to use a range of modern computer tools for working with data, programming or symbolic algebra as well as typesetting and presentation.
Elective modules
Once you have mastered the foundations, our mathematics programmes offer in later years a wide range of options within the programme. In addition to the named degrees with study abroad, professional experience and year in industry, you can take optional (called elective) modules from all over the university in years 2 and 3. These options are subject to your availability, having the appropriate background (pre-requisites) and certain programme constraints.
A research and practice led culture
You will benefit from teaching by academic staff comprising internationally-recognised mathematicians, scientists and practitioners active across a wide range of topics in pure and applied mathematics, statistics and applications. As you progress through your degree, you will hear about the latest mathematical research and have opportunities (for example, the independent research project) to become actively involved in a research project yourself.
Assessment
Assessment for all degrees is through a combination of examinations and coursework. Examinations are the more important part of the process, but the coursework helps you to work steadily throughout your degree. This is particularly important in Mathematics where the subject matter develops logically as the degree progresses. Written examinations for mathematics modules are held in January and May/June of the first and second years and in May/June of each subsequent year. Some modules have tests, essays, presentations and/or project reports that contribute to the assessment.
Optional modules outside of this course
Each year, if you have optional modules available, you can take up to 30 credits in a subject outside of your course. This can increase your employability and widen your intellectual horizons.
Proficiency in a second subject
If you complete 60 credits of modules in one of the subjects below, you may have the words 'with proficiency in [e.g. Social Data Science]' added to your degree title when you graduate.
- A Foreign Language
- Data Science
- Entrepreneurship
- Innovation
- Law (Penryn Campus only)
- Leadership
- Management
- Social Data Science
Your future
Exeter has an excellent reputation with graduate recruiters and a strong employment record. Our graduates go on to excel in many specialist mathematical fields and across a broad range of other sectors. We offer a very wide range of opportunities for you to develop the deep and adaptable skills that employers are looking for.
You’ll be able to meet with local and national employers who regularly visit the university to engage with students, hosting mock interviews, CV workshops, drop-ins and lectures. This is a great opportunity for you to find out more about the day to day activities of their business and recruitment opportunities. Our Careers Service also host a wealth of employer activity, such as Careers Fairs, so you’ll never be short of chances to network with potential employers.
Professional experience
You have the choice to take an optional ‘Commercial and Industrial Experience’ module during the vacation before your third year (fourth year for ‘with a Year in Industry’ students). This opportunity allows you to gain paid work experience in a commercial setting while earning credits towards your degree programme. Professional experience not only develops your CV but helps you to determine your career aspirations.
Career paths
The broad-based skills acquired during your degree will give you an excellent grounding for a wide variety of careers, not only those related to Mathematics but also in wider fields. Examples of roles recent graduates are now working as include:
- Accountant
- Actuary
- Analyst Programmer
- Business Analyst
- Credit Risk Analyst
- Data Science Developer
- Investment Analyst
- Software Engineer
- Statistician
- Tax Manager