Mathematics with Statistics for Finance
Learn to apply statistical methods to solve problems facing financial services industries.
Learn to apply statistical methods to solve problems facing financial services industries
Develop a broad understanding of mathematical theory, concepts and applications
Engage with ideas that will develop your critical and intellectual abilities and introduce new ways of thinking
Course key facts
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Qualification
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BSc
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Duration
3 years
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Start date
October 2025
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UCAS course code
G1GH
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Study mode
Full-time
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Fees
Not set Home
Not set Overseas
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Delivered by
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Location
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South Kensington
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Applications: places
11 : 1 (2023)
Minimum entry standard
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A*A*A (A-level)
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39 points (International Baccalaureate)
Course overview
This course aims to present you with a wide range of mathematical ideas in a way that develops your critical and intellectual abilities.
You'll develop a broad understanding of mathematical theory and application and deepen your knowledge in areas that appeal to you.
You will engage with concepts that are both a direct continuation of those at A-level, and others that introduce you to new ways of thinking.
Your studies will cover the key areas of mathematics such as algebra, analysis, probability and statistics.
You'll also explore topics including the logical structure of arguments, the proper definition of mathematical objects, the design of sophisticated mathematical models, and the legitimacy of computations.
As part of this specialisation, you will choose modules from a variety of relevant topics such as applied probability and mathematical finance.
You will also have the opportunity to choose from a wide selection of optional modules – many of which are linked to our cutting-edge research and led by pre-eminent experts in their fields.
As a graduate in mathematics, you'll possess a set of logical and analytical skills that employers highly value, enabling you to pursue opportunities across the commercial, government and education sectors.
Structure
This page is updated regularly to reflect the latest version of the curriculum. However, this information is subject to change.
Find out more about potential course changes.
Please note: it may not always be possible to take specific combinations of modules due to timetabling conflicts. For confirmation, please check with the relevant department.
In your first year, you will study the following core modules.
Core modules
Transition towards the way you will be expected to think about and approach mathematics during your degree, with emphasis on the importance of precise definitions and rigorous proofs.
Undertake a rigorous treatment of the concept of a limit, as applied to sequences, series and functions.
Generalise what you already know about systems of linear equations and matrices and view them in more abstract, and more geometric, frameworks of vector spaces and linear transformations.
Explore a selection of mathematical tools that will enable you to solve more complex problems in applied mathematics than you will have tackled previously.
Focus on probability concepts, within an axiomatic framework. There will be a strong emphasis on principles of modelling and data analysis and you will learn to use the formal language of probability.
Gain knowledge of programming in Python through illustrative examples, practice questions and assessment tasks, guided by computational principles and their underlying mathematical concepts.
Identify how mathematical ideas can be used to underpin a range of scientific problems and familiarise yourself with a mathematical framework that embraces multiple disciplines from engineering to economics and statistics.
Develop elementary research skills in mathematics while exploring your personal interests in a specific area of mathematics.
In your second year, you will study seven core modules, including the i-Explore module.
You will also select two optional modules..
Optional modules may be prerequisites for modules in later years. You will be advised about such dependencies before making your choices.
Core modules
Explore higher-dimensional derivatives, leading to the inverse and implicit function theorems, alongside metric and topological spaces as generalisations of n dimensional spaces, and limiting behaviour of sequences in such spaces.
Further your mathematical research and communication skills while developing transferable teamwork and presentation skills.
Examine how to find matrices for a linear transformation which reflect its important features, culminating in the rational and Jordan canonical forms, and prove the fundamental Cayley-Hamilton Theorem.
Gain an understanding of advanced topics in calculus and ordinary differential equations, including an introduction to multi-dimensional vector calculus and differential operators.
Deepen your knowledge in a brand new subject area, chosen from a huge range of for-credit modules.
Investigate probability concepts that are useful in applications, particularly to statistics, focusing on the joint behaviour of several random variables.
Develop the traditional concepts of statistical inference, including maximum likelihood, hypothesis testing and interval estimation and apply them to the linear model that arises in many practical situations.
Optional modules
Study examples of groups and homomorphisms, along with applications of group theory and rings, a class of algebraic object equipped with both addition and multiplication.
Explore Lebesgue's theory of measure and integration, a powerful extension of the Riemann integral and an essential tool in all aspects of analysis and its applications, including probability, stochastic processes and PDEs.
Learn about partial differential equations and the concept of modelling in applied mathematics, with a focus on practical application.
Build a core of programming skills beyond those encountered in your first year through the object-oriented programming model, which is very widely used and taught in Python.
Foray into an ever-evolving interdisciplinary field in which concepts and methods from mathematics play a central role in the analysis of real-world systems from computing, science, and engineering.
In your third year, you will be able to access a large selection of optional modules, including those specifically required for your stream of study.
You will choose at least six modules from Group A to graduate with a Statistics for Finance degree.
In addition, you will be able to choose a further two or three modules, depending on the number of ECTS credits awarded. This may include Group B modules, modules available in Year 2, and at most one offered by other departments.
Group A
- Advanced Topics in Partial Differential Equations
- Algebra 3
- Algebraic Combinatorics
- Algebraic Number Theory
- Algebraic Topology
- Applied Complex Analysis
- Asymptotic Methods
- Bifurcation Theory
- Communicating Mathematics
- Computational Linear Algebra
- Computational Partial Differential Equations
- Dynamical Systems
- Dynamics of Games and Learning
- Finite Elements: Numerical Analysis and Implementation
- Fluid Dynamics 1
- Fluid Dynamics 2
- Function Spaces and Applications
- Functional Analysis
- Galois Theory
- Geometric Complex Analysis
- Group Representation Theory
- Group Theory
- Groups and Rings
- High Performance Computing
- Introduction to Geophysical Fluid Dynamics
- Lebesgue Measure and Integration
- Markov Processes
- Mathematical Biology
- Mathematical Logic
- Mathematics of Business and Economics
- Methods for Data Science
- Network Science
- Number Theory
- Numerical Solutions of Ordinary Differential Equations
- Partial Differential Equations in Action
- Principles of Programming
- Probability for Statistics
- Probability Theory
- Quantum Mechanics 1
- Quantum Mechanics 2
- Special Relativity and Electromagnetism
- Statistical Modelling 1
- Tensor Calculus and General Relativity
- Theory of Complex Systems
Group B
- Advanced Topics in Partial Differential Equations
- Algebra 3
- Algebraic Combinatorics
- Algebraic Number Theory
- Algebraic Topology
- Applied Complex Analysis
- Applied Probability
- Asymptotic Methods
- Bifurcation Theory
- Communicating Mathematics
- Consumer Credit Risk Modelling
- Dynamical Systems
- Dynamics of Games and Learning
- Fluid Dynamics 1
- Fluid Dynamics 2
- Function Spaces and Applications
- Functional Analysis
- Galois Theory
- Geometric Complex Analysis
- Group Representation Theory
- Group Theory
- Groups and Rings
- Introduction to Geophysical Fluid Dynamics
- Lebesgue Measure and Integration
- Markov Processes
- Mathematical Biology
- Mathematical Finance: An Introduction to Option Pricing
- Mathematical Logic
- Mathematics of Business and Economics
- Number Theory
- Partial Differential Equations in Action
- Probability for Statistics
- Probability Theory
- Quantum Mechanics 1
- Quantum Mechanics 2
- Special Relativity and Electromagnetism
- Statistical Modelling 1
- Statistical Modelling 2
- Statistical Theory
- Stochastic Simulation
- Survival Models
- Tensor Calculus and General Relativity
- Theory of Complex Systems
- Time Series Analysis
The list gives you an idea of the optional modules that you may be able to choose from, not the exact modules that will be offered. You may only take the same module once, even if offered in different years and at different levels.
Teaching and assessment
Balance of teaching and learning
Key
- Lectures, seminars and similar
- Independent study
Year 1
- 22% Lectures, seminars and similar
- 78% Independent study
Year 2
- 20% Lectures, seminars and similar
- 80% Independent study
Year 3
- 16% Lectures, seminars and similar
- 84% Independent study
Teaching and learning methods
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Independent learning
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Group learning
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Lectures
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Tutorials
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Problem solving
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Research projects
Balance of assessment
Key
- Coursework
- Examinations
Year 1
- 30% Coursework
- 70% Examinations
Year 2
- 20% Coursework
- 80% Examinations
Year 3
- 10% Coursework
- 90% Examinations
Assessment methods
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Group assignments and projects
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Individual projects
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Online tests and quizzes
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Oral presentations
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Poster presentations
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Short, individual tests
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Written examinations
Entry requirements
We consider all applicants on an individual basis, welcoming students from all over the world.
How to apply
Apply via UCAS
When applications open, you will be able to start your application via UCAS Hub. There you can add this course as one of your choices and track your application.
Applications open on 14 May 2024
Application deadlines – 29 January 2025 at 18.00 (UK time)
Mathematics Admissions Test (MAT)
All candidates who apply up to 15 October are required to sit the Mathematics Admissions Test (MAT). The MAT allows us to have a common measure with which to benchmark all our applicants, regardless of which qualifications they are taking as well or those they already have.
The MAT is a paper-based, subject-specific admissions test which lasts 2.5 hours and takes place in early November. For more information about the test, including how to register, visit the Oxford MAT website. You must register for the test before taking it.
Applicants may request their MAT result from April onwards the year after their test sitting.
A request must be made in writing to ugmaths.admissions@imperial.ac.uk and confirm your full name, UCAS ID and MAT registration number.
Sixth Term Examination Paper (STEP)
Conditional offers to post-15 applicants who were unable to take MAT will include a STEP requirement. This may also be applied to conditional offers to applicants taking other qualification types.
Our minimum STEP offer is a Grade 2 in either the STEP II or STEP III papers. Both the grade and the number of papers may be increased in some cases.
In addition, some MAT candidates who have a borderline mark may be considered for a STEP offer and that offer may also be increased.
Find out more about STEP (Sixth Term Examination Paper), which is also administered by ATS.
Assessing your application
Admissions Tutors consider all the evidence available during our rigorous selection process and the College flags key information providing assessors with a more complete picture of the educational and social circumstances relevant to the applicant. Some applicants may be set lower offers and some more challenging ones.
We don't currently use interviews as part of our regular admissions process.
We may consider students for interview where there are mitigating circumstances that need investigating, or where the background of the student means that their application requires further consideration. In these cases, our conditional offer may change as a result of the interview, and as with all candidates, each application is considered on its individual merits.
An ATAS certificate is not required for students applying for this course.
Successful candidates will receive the same offer for any course they apply for within the Department, so you should apply to just one. There is no advantage in applying to multiple courses within Mathematics.
The high level of shared content in the first two years means it is usually possible to transfer between any of our maths courses during this time (within stated restrictions – which would include having taken the appropriate second year options).
However, transfer onto the Year Abroad course must normally be done in your first year.
If you are an international student, transferring to a different course could have an impact on your student visa.
Please visit our International Student Support webpage for further information.
Year abroad
Language requirement
Teaching is in the language of your host country, so you will need to reach an acceptable proficiency in the relevant language before you go. Free language classes are available at the College to help you prepare.
Availability
There are limited places available on the Year Abroad programme, which means that competition for selection is strong and a placement cannot be guaranteed.
Normally only students who are on track for at least a 2:1 will be eligible for placements in France and Germany. Only students on track to achieve a 1st will be eligible for placements in Singapore and the USA.
Please note the list of universities located abroad that the Department currently has partnerships with is illustrative.
Partnerships with universities are subject to continuous review and individual partnerships may or may not be renewed.
Tuition fees
Home fee
2025 entry
Not set
As a guide, the Home fee for 2024–25 was £9,250 per year
Your fee is based on the year you enter the College, not your year of study. This means that if you repeat a year or resume your studies after an interruption, your fees will only increase by the amount linked to inflation.
Find out more about our tuition fees payment terms, including how inflationary increases are applied to your tuition fees in subsequent years of study.
Whether you pay the Home or Overseas fee depends on your fee status. This is assessed based on UK Government legislation and includes things like where you live and your nationality or residency status. Find out how we assess your fee status.
If you're a Home student, you can apply for a Tuition Fee Loan from the UK government to cover the entire cost of tuition for every year of your course.
You can also apply for a means-tested Maintenance Loan to help towards your living costs.
We’re offering up to £5,000 each year through our Imperial Bursary scheme for eligible Home undergraduates.
If your household income remains under £70,000 a year, you’ll automatically qualify for every year of your course.
Find out more about our Imperial Bursary scheme.
Overseas fee
2025 entry
Not set
As a guide, the Overseas fee for 2024–25 was £39,100 per year
Your fee is based on the year you enter the College, not your year of study. This means that if you repeat a year or resume your studies after an interruption, your fees will only increase by the amount linked to inflation.
Find out more about our tuition fees payment terms, including how inflationary increases are applied to your tuition fees in subsequent years of study.
Whether you pay the Home or Overseas fee depends on your fee status. This is assessed based on UK Government legislation and includes things like where you live and your nationality or residency status. Find out how we assess your fee status.
How will studying at Imperial help my career?
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Gain transferable skills relevant to a career in industry, government and academia.
With specialised knowledge, you'll be highly sought after in a range of sectors.
International banking, computing, business, law and accountancy are just some of your options.
Other potential career paths could include financial services and healthcare technology.
Further links
Contact the department
- Telephone: +44 (0)20 7594 8484
- Email: ugmaths.admissions@imperial.ac.uk
Visit the Department of Mathematics website
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Learn more about studying at Imperial. Receive useful information about our life in our undergraduate community and download our latest Study Guide.
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Course data
Terms and conditions
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You can find further information about your course, including degree classifications, regulations, progression and awards in the programme specification for your course.
Programme specifications