Mathematics with Professional Experience (2024)
1. Programme Title:Mathematics with Professional Experience |
NQF Level: |
7 |
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2. Description of the Programme (as in the Business Approval Form) |
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Mathematics plays an important role in many aspects of modern life, providing the techniques and language to handle problems from a wide variety of disciplines. It has always been essential for engineering and the physical sciences and is becoming increasingly important in the life sciences and social sciences. Yet mathematics is not only studied because of its applications; it has a fascination and beauty of its own, characterised by precision and logical rigour. Mathematics forms a rewarding, challenging and varied subject of study at university, and our mathematics degrees span a wide range of mathematical topics, encompassing mathematical methods, pure mathematics, applied mathematics, and probability and statistics. |
3. Educational Aims of the Programme |
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The programme is intended to: |
4. Programme Structure |
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The MMath in Mathematics with Professional Experience is a four-year programme of study at National Qualification Framework (NQF) level 7 (as confirmed against the FHEQ). This programme is divided into four ‘Stages’. Each Stage is normally equivalent to an academic year. The programme is also divided into units of study called ‘modules’ which are assigned a number of ‘credits’. The credit rating of a module is proportional to the total workload, with 1 credit being nominally equivalent to 10 hours of work. Interim Awards If you do not complete the programme you may be able to exit with a lower qualification. If you have achieved 120 credits, you may be awarded a Certificate of Higher Education in Mathematics, and if you achieve 240 credits, where at least 90 credits are at NQF Level 5 (Stage 2) or above, you may be awarded a Diploma of Higher Education in Mathematics. |
5. Programme Modules |
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The following tables describe the programme and constituent modules. Constituent modules may be updated, deleted or replaced as a consequence of the annual review of this programme. Details of the modules currently offered may be obtained from the Faculty website https://intranet.exeter.ac.uk/emps/ You may take Option Modules as long as any necessary prerequisites have been satisfied, where the timetable allows, and if you have not already taken the module in question or an equivalent module. Descriptions of the individual modules are given in full on the Faculty website https://intranet.exeter.ac.uk/emps/ You may take Elective Modules up to 30 credits outside of the programme in the second and third stages of the programme as long as any necessary prerequisites have been satisfied, where the timetable allows and if you have not already taken the module in question or an equivalent module. |
Stage 1
Code | Title | Credits | Compulsory | NonCondonable |
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MTH1000 | Foundations | 0 | Yes | No |
MTH1001 | Mathematical Structures | 30 | Yes | Yes |
MTH1002 | Mathematical Methods | 30 | Yes | Yes |
MTH1003 | Mathematical Modelling | 30 | Yes | No |
MTH1004 | Probability, Statistics and Data | 30 | Yes | No |
Stage 2
Code | Title | Credits | Compulsory | NonCondonable |
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Select between 60 and 90 credits: | ||||
MTH2003 | Differential Equations | 15 | No | No |
MTH2004 | Vector Calculus and Applications | 15 | No | No |
MTH2008 | Real Analysis | 15 | No | No |
MTH2009 | Complex Analysis | 15 | No | No |
MTH2010 | Groups, Rings and Fields | 15 | No | No |
MTH2011 | Linear Algebra | 15 | No | No |
Select up to 60 credits: | ||||
MTH2005 | Modelling: Theory and Practice | 30 | No | No |
MTH2006 | Statistical Modelling and Inference | 30 | No | No |
You may select up to 30 credits: | ||||
Free choice - up to 30 credits | 30 | No | No |
The free choice (electives) can include modules from any Faculty in the University, subject to approval, pre-requisites, timetabling and availability.
MTH2003 is prerequisite for MTH2004 and MTH2005. MTH2008 is prerequisite for MTH2009.
Not all optional modules listed will be available each year; options are offered at the discretion of the Faculty.
Standard progression to Stage 3 of the MMath: Candidates must normally have achieved a stage average of 55% or higher across the full 120 credits of assessment, including any failed and condoned modules. Students who do not reach the threshold may progress to Stage 3 of the equivalent BSc programme, as long as the standard progression requirements are met.
Stage 3
Code | Title | Credits | Compulsory | NonCondonable |
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EMP3003 | Professional Experience | 45 | Yes | Yes |
MTHM036 | Research in Mathematical Sciences | 15 | Yes | No |
Select between 30 and 60 credits: | ||||
MTH3001 | Theory of Weather and Climate | 15 | No | No |
MTH3004 | Number Theory | 15 | No | No |
MTH3006 | Mathematical Biology and Ecology | 15 | No | No |
MTH3007 | Fluid Dynamics | 15 | No | No |
MTH3008 | Partial Differential Equations | 15 | No | No |
MTH3011 | Nonlinear Systems and Control | 15 | No | No |
MTH3013 | Applied Differential Geometry | 15 | No | No |
MTH3019 | Mathematics: History and Culture | 15 | No | No |
MTH3022 | Graphs, Networks and Algorithms | 15 | No | No |
MTH3024 | Stochastic Processes | 15 | No | No |
MTH3026 | Cryptography | 15 | No | No |
MTH3028 | Statistical Inference: Theory and Practice | 15 | No | No |
MTH3030 | Mathematics of Climate Change | 15 | No | No |
MTH3038 | Galois Theory | 15 | No | No |
MTH3039 | Computational Nonlinear Dynamics | 15 | No | No |
MTH3040 | Topology and Metric Spaces | 15 | No | No |
MTH3041 | Bayesian statistics, Philosophy and Practice | 15 | No | No |
MTH3042 | Integral Equations | 15 | No | No |
MTH3044 | Bayesian Data Modelling | 15 | No | No |
MTH3045 | Statistical Computing | 15 | No | No |
NSC3009 | Aerosols,CLouds and Climate | 15 | No | No |
MTH3050 | Functional Analysis | 15 | No | No |
You may select up to 30 credits: | ||||
Free choice of modules | 30 | No | No |
The free choice (electives) can include modules at NQF Level 5 (Stage 2) or NQF Level 6 (Stage 3) from any Faculty in the University, subject to approval, pre-requisites, timetabling and availability.
Not all optional modules listed will be available each year; options are offered at the discretion of the Faculty.
Stage 4
Code | Title | Credits | Compulsory | NonCondonable |
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Select one of the below Project Modules | ||||
MTHM005 | Mathematical Sciences Project | 30 | No | No |
MTHM044 | MMATH Project in Statistics | 45 | No | No |
Select between 60 and 90 credits: | ||||
MTHM001 | Functional Analysis | 15 | No | No |
MTHM004 | Fractal Geometry | 15 | No | No |
MTHM006 | Mathematical Theory of Option Pricing | 15 | No | No |
MTHM009 | Advanced Topics in Mathematical & Computational Biology | 15 | No | No |
MTHM010 | Representation Theory of Finite Groups | 15 | No | No |
MTHM018 | Dynamical Systems and Chaos | 15 | No | No |
MTHM015 | AI and Data Science Methods for Life and Health Sciences | 15 | No | No |
MTHM019 | Fluid Dynamics of Atmospheres and Oceans | 15 | No | No |
MTHM022 | Dynamics and Evolution of Biological Systems | 15 | No | No |
MTHM023 | Modelling the Weather and Climate | 15 | No | No |
MTHM024 | Mathematical Analysis of Biological Systems | 15 | No | No |
MTHM028 | Algebraic Number Theory | 15 | No | No |
MTHM029 | Algebraic Curves | 15 | No | No |
MTHM030 | Waves, Instabilities and Turbulence | 15 | No | No |
MTHM031 | Magnetic Fields and Fluid Flows | 15 | No | No |
MTHM033 | Statistical Modelling in Space and Time | 15 | No | No |
MTHM045 | Space Weather and Plasmas | 15 | No | No |
MTHM048 | Ergodic Theory | 15 | No | No |
MTHM052 | Mid-Latitude Weather Systems | 15 | No | No |
NSCM005 | Mathematical Modelling in Biology and Medicine | 15 | No | No |
MTHM061 | Topics in Analytic Number Theory | 15 | No | No |
MTHM062 | Data-driven Analysis and Modelling of Dynamical Systems | 15 | No | No |
MTHM063 | Uncertainty Quantification | 15 | No | No |
You may select up to 15 credits: | ||||
XXX3XXX | Free choice of Level 6 Module | 15 | No | No |
You may select up to 30 credits: | ||||
XXXMXXX | Free choice of Level 7 Modules | 30 | No | No |
6. Programme Outcomes Linked to Teaching, Learning & Assessment Methods |
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On successfully completing the programme you will be able to: | Intended Learning Outcomes (ILOs) will be accommodated & facilitated by the following learning & teaching and evidenced by the following assessment methods: | |||
A Specialised Subject Skills & Knowledge
1) apply the terminology and conventions used in mathematics; | Learning & Teaching ActivitiesKnowledge in (1-4) is primarily provided through formal lectures supported by regular problem sheets for students to tackle on their own. At Stages 1 and 2 lectures are reinforced by regular tutorials groups in which assistance with, and feedback on, problem sheets is given. At later stages in the programme students work on set problems by themselves and seek help when required using the office hours of staff. Applications of mathematics (3) are introduced in various Stage 1 and 2 modules and more advanced applications are introduced in Stage 3 options. Modules at Stage 3 encompass a range of special topics in mathematics (4). In depth knowledge of selected topics (5) is provided in Stage 4 options. Knowledge in (6) is provided through computer practical classes at Stage 1 and is reinforced in some other modules in Stage 1 and at later stages. Knowledge in (7) and (8) is acquired in the project at the final stage. | |||
Assessment MethodsMost knowledge is tested through unseen formal examinations. Assessment of some optional modules involves essays, project reports, oral presentation or computer practicals. The compulsory project is assessed through a written report and an associated viva. | ||||
B Academic Discipline Core Skills & Knowledge
1) think logically; | Learning & Teaching ActivitiesAll these skills are an essential part of the understanding of mathematics, are embedded throughout core elements of the programme and are intrinsic to good performance in the programme. They are developed through formal lectures, tutorials, coursework, computer practicals, use of IT and private study. Skills (7-9) in particular are reinforced in optional modules involving directed reading, reports or seminars at Stages 3 or 4. The final Stage project develops skills (4), (5) and (7-10). The Professional Experience placement and module develops skill (11). | |||
Assessment MethodsAll these skills are tested indirectly in various core elements of the programme, with (5-9) contributing particularly to the more successful work. They are all assessed in part through written coursework and in part by unseen formal examinations. Skills (7-9) are directly assessed in some optional modules via oral presentation, essays or reports. Skills (4), (5) and (7-10) are assessed in the final Stage project and associated viva. Skill (11) is assessed via oral presentations and a written project in the Professional Experience module. | ||||
C Personal / Transferable / Employment Skills & Knowledge
1) use a range of IT software including standard and mathematical word-processing applications and computer algebra software; | Learning & Teaching ActivitiesSkill (1) is developed from Stage 1 through use of the mathematical computing packages in core Stage 1 modules. Skills (1-2) are developed in various other core components of the programme e.g. oral presentations in Stage 1 tutorials, and the requirement for submission of word-processed coursework in some assignments in certain modules at Stages 1 and 2. Skill (3) is intrinsic to successful completion of the programme. Skills (4) and (5) are developed in one of the core modules at Stage 1 and in some optional Stage 3 and 4 modules involving project or group work. Skills (2), (4) and (6) are integral to the compulsory advanced project at Stage 4. Skills (7-8) are reinforced through annual self-appraisals with personal tutors and developed particularly through the work placement and subsequent project in Stage 3 with an option to continue the relationship into the Level 7 project. | |||
Assessment MethodsSkills (1-3) are indirectly assessed as part of coursework in core modules and effective use of skills (1-4) will generally enhance performance throughout the programme. Skills (1-5) are more directly assessed in one of the core modules at Stage 1 and at Stage 3 in some optional modules via group exercises, essays, project reports or oral presentations. Skills (2-4) and in particular (6) are assessed in the final year project report and associated viva. Skills (7-8) are assessed via the Professional Experience module with oral presentations and written reports, and through further formative reflection on the work placement with personal tutors. |
7. Programme Regulations |
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Credit
The programme consists of 480 credits with 120 credits taken at each Stage. Normally not more than 75 credits would be allowed in any one term. In total, participants normally take no more than 150 credits at Level 4, and must take at least 210 credits at Level 6 or higher of which at least 120 must be at Level 7. The pass mark for award of credit in an individual module is 40% for modules taken at NQF Levels 4, 5 and 6; and 50% for modules taken at NQF Level 7 Progression Condonement is the process that allows you to be awarded credit (and so progress to the next stage or, in the final stage, receive an award), despite failing to achieve a pass mark at a first attempt. You are not entitled to reassessment in condoned credit. Up to 30 credits of failure can be condoned in a stage on the following conditions: You must have registered for and participated in modules amounting to at least 120 credits in the Stage. You must pass the modules marked with a 'Yes' in the 'non-condonable' column in the tables above. In stages 1- 3, you must achieve an average mark of at least 40% across the full 120 credits of assessment, including any failed and condoned modules. In the final stage you must achieve an average mark of at least 50% across the full 120 credits of assessment, including any failed and condoned modules. To proceed to Stage 3 of the MMath programme, you must normally achieve an average mark of 55% across the full 120 credits of assessment, including any failed and condoned modules. MMath candidates who successfully achieve the general progression requirement for Stage 2 but who do not achieve the requisite average mark for progression to Stage 3 of the MMath can progress on the equivalent BSc programme.
Assessment and Awards
If you have achieved 120 credits, you may be awarded a Certificate of Higher Education in Mathematics. If you achieve 240 credits, where at least 90 credits are at NQF Level 5 or above, you may be awarded a Diploma of Higher Education in Mathematics. If you achieve 300 credits, where at least 60 credits are at NQF level 6 or above, you may be awarded a Bachelor of Science (Ordinary). If you achieve 360 credits, where at least 90 credits are at NQF Level 6 or above, you may be awarded a Bachelor of Science with Honours.”
Assessment at stage one does not contribute to the summative classification of the award. The award will normally be based on the degree mark formed from the credit-weighted average marks for Stages 2 and 3 and 4, combined in the ratio 2:3:4 respectively.
Full details of assessment regulations for UG programmes can be found in the Teaching Quality Assurance Manual (TQA) on the University of Exeter website. Generic marking criteria are also published here. Please see the Teaching and Quality Assurance Manual for further guidance. |
8. College Support for Students and Students' Learning |
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In accordance with University policy a system of personal tutors is in place for all students on this programme. A University-wide statement on such provision is included in the University's TQA Manual. As a student enrolled on this programme you will receive the personal and academic support of the Programme Coordinator and will have regular scheduled meetings with your Personal Tutor; you may request additional meetings as and when required. The role of personal tutors is to provide you with advice and support for the duration of the programme and extends to providing you with details of how to obtain support and guidance on personal difficulties such as accommodation, financial difficulties and sickness. You can also make an appointment to see individual teaching staff. Information Technology (IT) Services provide a wide range of services throughout the Exeter campuses including open access computer rooms, some of which are available 24 hours, 7 days a week. Help may be obtained through the Helpdesk, and most study bedrooms in halls and flats are linked to the University's campus network. Additionally, the College has its own dedicated IT support staff, helpdesk and computer facilities which are linked to the wider network, but which also provide access to some specialised software packages. Email is an important channel of communication between staff and students in the College and an extensive range of web-based information (see https://intranet.exeter.ac.uk/emps/ ) is maintained for the use of students, including a comprehensive and annually revised student handbook. The Harrison Learning Resource Centre is generally open during building open hours. The Centre is available for quiet study, with four separate rooms that can be booked for meetings and group work. Amongst its facilities, the Learning Resource Centre has a number of desks, four meeting rooms with large LCD screens, and free use of a photocopier. Also available are core set texts from your module reading lists, and undergraduate and MSc projects from the past two years. Online Module study resources provide materials for modules that you are registered for, in addition to some useful subject and IT resources. Generic study support resources, library and research skills, past exam papers, and the 'Academic Honesty and Plagiarism' module are also available through the student portal (http://vle.exeter.ac.uk). Student/Staff Liaison Committee enables students & staff to jointly participate in the management and review of the teaching and learning provision. |
10. Admission Criteria |
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All applications are considered individually on merit. The University is committed to an equal opportunities policy with respect to gender, age, race, sexual orientation and/or disability when dealing with applications. It is also committed to widening access to higher education to students from a diverse range of backgrounds and experience. Candidates must satisfy the general admissions requirements of the University of Exeter. |
11. Regulation of Assessment and Academic Standards |
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Each academic programme in the University is subject to an agreed College assessment and marking strategy, underpinned by institution-wide assessment procedures. The security of assessment and academic standards is further supported through the appointment of External Examiners for each programme. External Examiners have access to draft papers, course work and examination scripts. They are required to attend the Board of Examiners and to provide an annual report. Annual External Examiner reports are monitored at both College and University level. Their responsibilities are described in the University's code of practice. See the University's TQA Manual for details. |
12. Indicators of Quality and Standards |
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Certain programmes are subject to accreditation and/ or review by professional and statutory regulatory bodies (PSRBs).
This programme is accredited by the Institution of Mathematics and its Applications (IMA) for the purpose of fully meeting the educational requirements of the Chartered Mathematician designation.
Accreditation is awarded for a maximum of 6 years under each assessment exercise. The dates applicable to the current accreditation of this degree programme can be viewed on the IMA list of accredited degrees: www.ima.org.uk.
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14 | Awarding Institution | University of Exeter | |
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15 | Lead College / Teaching Institution | Faculty of Environment, Science and Economy | |
16 | Partner College / Institution | ||
17 | Programme accredited/validated by | ||
18 | Final Award(s) | MMath (Hons) | |
19 | UCAS Code (UG programmes) | G104 | |
20 | NQF Level of Final Awards(s): | 7 | |
21 | Credit (CATS and ECTS) | 480 (240 ECTS) | |
22 | QAA Subject Benchmarking Group (UG and PGT programmes) | Mathematics, Statistics and Operational Research |
23 | Origin Date | February 27th 2024 | Last Date of Revision: | December 4th 2024 |
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