UDMATHFY - BSc (Hons) Mathematics (including foundation year)

Learning and Teaching Strategy:

Students’ learning is directed via face-to-face learning activities. These include: lectures, tutorials, seminars, computer-based learning, individual and group-based case studies and investigations, and directed independent study.
The addition of foundation year is designed for students who have been away from formal study for some time or have not quite reached the entry requirements to start on Level 4. As such the foundation year offers broad range of topics from essential mathematical techniques, programming and applications of mathematics in communications technology (robotics) and cyber security. These topics provide students with set of transferable skills necessary in modern job market and also serves as a platform to study several other degrees that our school offers (i.e. BSc Computer Science, BSc Digital Forensics and Cyber Security, BEng Electronics and Internet of Things). The latter point allows for flexibility to change the route after Level 3 which, from our experience of running Extended Degrees, is a very attractive feature to applicants.
All the modules for all the levels are already existing and comply with the UG framework and no additional resources in terms of staff, library and ISS are needed.At Level 4 onwards, students are expected to develop higher order cognitive/intellectual skills that are reflected in an ability to select and apply appropriate mathematical processes in problem solving; develop logical mathematical arguments with appropriate conclusions and an evaluation of their limitations; formulate complex problems, analyse and interpret the results in context; develop self-awareness and study skills and be able to work both independently and with others as part of a team. These skills will be developed by learning activities such as: problem solving classes and activities; case studies; problem-based learning data-driven computer-based analysis of real data; directed independent research and study.
All mathematics modules will have presence on the University virtual learning environment. Apart from standard information (module specs, staff contact details, surgery/office hours and regular notice boards) it will also include, where appropriate, online submission of assessments, marking and feedback; online quizzes, reusable learning objects and social networking tools to motivate students. At level 4 on-line software will be used such as MyMatlabGlobal, Visual Calculus, etc. Further in the course the specific local software will be used such as Computer Algebra package (MAPLE), and various statistical packages (R, SPSS, etc) to enhance students learning and overall experience.

Assessment Strategy:

Students are assessed via tests, exams, essays, individual and group research projects, presentations and a final dissertation with regular supportive feedback.
Mathematics modules at all levels are required to set and give feedback on a specific piece of work within the first four weeks. This engages students early and the feedback provided sets standards for future assessments and ensures students are aware of expectations. The exercise will also provide course team with an early measure of students’ engagement with each module.
Assessment matrix is produced at course level to avoid bunching of submission deadlines.
Students have the opportunity to examine their marked test papers in the tutorial sessions and receive one to one feedback which for written coursework is via the same Turnitin platform through which assignments are submitted.

The course aims to provide a broad mathematical education enabling students to investigate several branches of mathematics. The focus of the course is the application of the techniques in appropriate contexts. Emphasis throughout is on what the student learns and can do as a result of the learning. It also enables the demonstration of the graduate attributes of self-awareness, performance in a variety of idioms and contexts and ethical and creative considerations.
For students undertaking the single honours course, the aims are to
1. develop practical and analytical skills that will be applicable in the modern business environment.
2. enable students to demonstrate appropriate transferable skills and the ability to work with relatively little guidance and support.
3. ensure that students are competent in the use of the IT skills that are needed in the workplace
4. equip students with a body of knowledge and study skills to enable them to progress to and succeed in postgraduate study

By the end of the preparatory level of the course the student will be able to :-
LO1. Demonstrate basic knowledge, principles, methods and techniques used in the areas of Computing, Communication Technology and Mathematics.
LO2. Demonstrate a range of design and modelling techniques, their applications and limitations.
LO3. Apply basic problem-solving and analytical techniques, presenting findings, explaining results and justifying choice of methods.
LO4. Acquire a basic understanding of electronic components and applications in Communications and Network Engineering.
LO5. Conduct themselves in a safe and professional manner in a laboratory workshop environment.
LO6. Have fundamental knowledge of computer security, basic cyber threats and the corresponding detection and defense techniques.
LO7. Communicate effectively individually or as a member of a team.
LO8. Acquire an understanding of legal, social and ethical issues in the relevant fields of study.

By the end of this course a student is expected to have acquired knowledge and understanding of the following
LO9. mathematical methods and techniques, including algebra and calculus .
LO10. a range of modelling techniques, their limitations and applications .
LO11. the importance of using a structured mathematical or analytical approach to problem
solving.
LO12. various abstract algebraic objects and their applications in science and
engineering.
LO13. a rigorous approach to the analysis of functions of a real and a complex variable
and their applications
LO14. the social and ethical responsibilities of a mathematician.
LO15. the role of mathematical techniques in the modern business environment .
LO16. work effectively as an individual or as part of a team and develop the skills associated with problem solving, relationship management, communication and time management in the context of a work-related learning experience.

Mathematics, Statistics and Operational Research

• Students are assessed via tests, exams, essays, individual and group research projects, presentations and a final dissertation with regular supportive feedback.
• Mathematics modules at all levels are required to set and give feedback on a specific piece of work within the first four weeks. This engages students early and the feedback provided sets standards for future assessments and ensures students are aware of expectations. The exercise will also provide course team with an early measure of students’ engagement with each module.
• Assessment matrix produced at course level to avoid bunching of submission deadlines.
• Students have the opportunity to examine their marked test papers in the tutorial sessions and receive one to one feedback which for written coursework is via the same TurnitIn platform through which assignments are submitted.

As part of our Undergraduate Student programme, every student will undertake a compulsory level 6 (15 credits) work- related learning module in semester 1 or 2.
This module will give opportunity to students to gain skills and experience from work environment and can take different format such as a professional training, a volunteering activity, an employment activity, an activity within the School of Computing and Digital Media project which would typically entail an individual student or a team of students working on a real project.
Students already in part time jobs can also be considered, providing students can demonstrate that it is personally developmental, involves responsibility and covers all the learning outcome of the work related module.

In addition to standard University Academic Regulations to progress from Level 3 to Level 4 students must pass MA3101 Mathematics module.

Standard University Academic Regulations

Students are expected to develop skills ( including those of employability and professional practice) which include: communicating effectively both orally and written means using appropriate idioms; working effectively as part of a team; applying statistical and numerical techniques to the analysis of problems ; using computer-based software to facilitate communication and research; being aware of the ethical and social consequences of mathematical, statistical and operational research work and thinking critically and reflectively when developing solutions and interpreting results. These skills are developed throughout the course and are embedded in the learning activities. More specific support and development is provided at level 4 (Mathematical Proof and Structures) and further developed within the core modules and in the employability modules (Project Management and Work Related Learning) and finally in the final year project/independent study module.

This course is accredited by the Institute of Mathematics and its Applications (IMA).

The university careers service offers guidance to students on a one-to-one basis or in group sessions, arrange Workshops and Events, London Met Graduate Internship Scheme and information on opportunities and events. They also yearly provide via Career Mentoring Programmes scheme the opportunity for university’s Alumni to act as mentors to the current students.
The School of Computing and Digital Media’s Work-related projects offer opportunities to enhance employability skills, gain real experience and 'earn while you learn' through placements into real client-driven projects - working with business and industry

Graduates from this degree course are able to embark upon careers in the field of mathematics but also work more broadly in the computing industry, finance. In addition the graduates from this course can proceed to PGCE in Secondary Mathematics Teaching as well as MSc Mathematics areas.

There are careers for which a degree in mathematics is either essential or a strong advantage. These fall into a number of general areas:
1. Scientific research, design and development
2. Management services and computing
3. Financial work
4. Statistical work
5. Teaching
6. Postgraduate study
Students will be encouraged to undertake a (usually paid) sandwich placement between the level 5 and level 6.

A degree in mathematics can open up a wide range of career options. You could take up a role in scientific research, design and development, management services, computing, financial work, statistical work or teaching. You could also go on to do postgraduate study.

In addition to the University's standard entry requirements, you should have:

• at least one A level (or a minimum of 32 UCAS points from an equivalent Level 3 qualification, eg BTEC Subsidiary/National/BTEC Extended Diploma)
• English Language and Mathematics GCSEs at grade C (grade 4) or above (or equivalent, eg Functional Skills at Level 2)

Applicants who meet the UCAS points criteria but who obtained a grade D/grade 3 in English and/or Maths at GCSE may be offered a University test in these areas.

If you feel your qualifications exceed the entrey requirements listed above, you may be able to apply to our Mathematics BSc (Hons). If you don't have traditional qualifications or can't meet the entry requirements for this undergraduate degree you could also take a look out our Mathematical Sciences BSc (Hons) and Mathematical Sciences (including foundation year) BSc Hons course offerings.