Middlesex University has opted into the TEF and received a Silver award.
Mathematics and computing are subjects that have a lot in common. Students graduating from mathematics degrees often move into a diverse range of careers in computing. The BSc and MSci Mathematics with Computing degrees are designed to develop the knowledge and skills that are fundamental to a number of careers in the IT industry.
Why study BSc/MSci Mathematics with Computing at Middlesex University?
This BSc/MSci is a practical program of computing with a broad core knowledge of mathematical underpinnings. In contrast to many other mathematics provisions across the sector, Middlesex University adopts a teaching style that encourages small group work and peer-assisted learning. The first year modules in particular complement lectures with small group workshops supported by second and final year students.
Problem Solving Skills guides students through the process of developing software in order to solve a given problem. Students learn to develop and communicate strategies and algorithms specific to the problem.
You will be able to develop your own interests in an area of your choice
You will have the opportunity to partake in an optional placement
The hands on modules are taught by experienced experts in the field
The programme aims to foster a friendly and supportive learning environment that encourages student interactio
Vectors and Matrices (30 credits) - Compulsory
Calculus and Differential Equations (30 credits) - Compulsory
Logic and Structures (30 credits) - Compulsory
Data and Information (30 credits) - Compulsory
Algorithmic Complexity and Machine Learning (30 credits) - Compulsory
Groups and Rings (30 credits) - Compulsory
Mathematical Analysis (30 credits) - Compulsory
Problem Solving Methods (30 credits) - Compulsory
Advanced Algebra (30 credits) - Compulsory
Real and Complex Analysis (30 credits) - Compulsory
Communicating Mathematics (30 credits) - Compulsory
Project (30 credits) - Compulsory
Computer Graphics (30 credits) - Compulsory
Artificial Intelligence (30 credits) - Compulsory
Combinatorics (30 credits) - Compulsory
Multivariate Statistics (30 credits) - Compulsory
Simulation and Decision Making (30 credits) - Compulsory
Functional Analysis (30 credits) - Compulsory
Differential Equations (30 credits) - Compulsory
How to apply
If your application is completed by the following date, it’s guaranteed to be considered:
15 January*If you apply after this deadline, universities or colleges don’t have to consider your application if they’ve filled their spaces, so the sooner you apply, the better!
You will need these codes when you add a choice to your application.
|Campus name||Hendon Campus|
This course may be available at alternative locations, please check if other course options are available
Points of entry
The following entry points are available for this course:
- Year 1
|UCAS Tariff||120 points|
|A level||Including 40 points or above in Mathematics|
|Access to HE Diploma||
D: 15 credits
P: 30 credits
|Access pass with 45 credits at Level 3 (15 distinction or higher)|
|GCSE/National 4/National 5||GCSE grade C or above in English and Maths or grade 4 if awarded after August 2017|
Visit our general entry requirements page, by clicking on the link below, to see how these points can be achieved from our acceptable level 3 qualifications and the combinations which are welcomed by Middlesex University, including GCSE requirements.
Please click the following link to find out more about qualification requirements for this coursehttp://www.mdx.ac.uk/courses/help-with-your-application/undergraduate-application/entry-requirements
English language requirements
|IELTS (Academic)||6.0||With a minimum of 5.5 in each component|
|PTE Academic||51.0||With at least 51 in all components|
|TOEFL (iBT)||72.0||With at least 17 in listening & writing, 20 in speaking and 18 in reading|
Fees and funding
|Channel Islands||£9,250||Year 1|
|Northern Ireland||£9,250||Year 1|