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Full Time Masters Degrees in Mathematics, United Kingdom

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Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

The MSc Mathematics course has been designed for students who wish to build on their BSc, extending their range of mathematics expertise across a broader spread of topics, and demonstrating their literature research skills through an extended dissertation.

Such a qualification will mark graduates out as having a broader and deeper understanding of mathematics, and the skills required to pursue a significant project with a high level of independence, presenting their results in a written report. This will give MSc Mathematics graduates an edge in the ever more competitive jobs market.

On the Mathematics course you will study different elements of mathematics in a broad sense - including mathematical elements of computing if desired - in addition to developing your research, project management, and written communication skills through a project you will undertake. As a student of MSc in Mathematics, you will be fully supported to ensure that your project further develops an excellent foundation for your future career plans.

Modules

Modules on the MSc Mathematics include:

• Algebraic coding theory
• Biomathematics
• Black-Scholes theory
• Data science
• Differential geometry
• Fourier analysis
• Ito calculus
• Lie theory
• Numerical analysis
• Partial differential equations
• Stochastic processes
• Statistical mechanics
• Topology

Please visit our website for a full description of modules for the MSc Mathematics.

On top of the Mathematics modules you study, you will also complete a dissertation as part of your studies.

Facilities

The Aubrey Truman Reading Room, located in the centre of the Department of Mathematics, houses the departmental library and computers for student use. It is a popular venue for students to work independently on the regular example sheets set by their lecturers, and to discuss Mathematics together.

Our main university library, Information Services and Systems (ISS), contains a notably extensive collection of Mathematics books.

Mathematics students will benefit from the £31m Computational Foundry for computer and mathematical sciences which will provide the most up-to-date and high quality teaching facilities featuring world-leading experimental set-ups, devices and prototypes to accelerate innovation and ensure students will be ready for exciting and successful careers. (From September 2018)

Careers

The ability to think rationally and to process data clearly and accurately are highly valued by employers. Mathematics graduates earn on average 50% more than most other graduates. The most popular areas are the actuarial profession, the financial sector, IT, computer programming and systems administration, and opportunities within business and industry where employers need mathematicians for research and development, statistically analysis, marketing and sales.

Some of our Mathematics students have been employed by AXA, BA, Deutsche Bank, Shell Research, Health Authorities and Local Government. Teaching is another area where Mathematics graduates will find plenty of career opportunities.

Research

The results of the Research Excellence Framework (REF) 2014 show that our research environment (how the Department supports research staff and students) and the impact of our research (its value to society) were both judged to be 100% world leading or internationally excellent.

All academic staff in Mathematics are active researchers and the department has a thriving research culture.

http://www.swansea.ac.uk/postgraduate/taught/science/mscmathematics/

Student Profile

"Further to my studies at Swansea University as a Master of Science graduate in Financial Mathematics, I am currently working at Deutsche Bank in London as part of the Structured Financial Services team providing client services for corporate lending and debt portfolios. The complex nature of the Mathematics course has helped me become a logical decision maker and a highly skilled problem solver. These transferable skills are very useful in the world of Finance since the role is highly challenging working towards deadlines and structured transaction targets. My studies at Swansea University have also enriched me with leadership, motivational skills and have enhanced my communication skills. I work in a close team of 10 people within a large department which encourages a culture that strives towards learning and effective teamwork. I thoroughly enjoyed my time at Swansea University and cherish the many fond memories. I am so pleased to be expanding my horizon within a major financial centre."

Rhian Ivey, BSc Mathematics, MSc Mathematics and Computing for Finance

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Studying Mathematics at postgraduate level gives you a chance to begin your own research, develop your own creativity and be part of a long tradition of people investigating analytic, geometric and algebraic ideas. Read more
Studying Mathematics at postgraduate level gives you a chance to begin your own research, develop your own creativity and be part of a long tradition of people investigating analytic, geometric and algebraic ideas.

If your mathematical background is insufficient for direct entry to the MSc in Mathematics and its Applications, you may apply for this course. The first year of this Master's programme gives you a strong background in mathematics, equivalent to the Graduate Diploma in Mathematics, with second year studies following the MSc in Mathematics and its Applications.

Visit the website https://www.kent.ac.uk/courses/postgraduate/148/international-masters-in-mathematics-and-its-applications

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School.

The Mathematics Group at Kent ranked highly in the most recent Research Assessment Exercise. With 100% of the Applied Mathematics Group submitted, all research outputs were judged to be of international quality and 12.5% was rated 4*. For the Pure Mathematics Group, a large proportion of the outputs demonstrated international excellence.

The Mathematics Group also has an excellent track record of winning research grants from the Engineering and Physical Sciences Research Council (EPSRC), the Royal Society, the EU, the London Mathematical Society and the Leverhulme Trust.

Course structure

At least one modern application of mathematics is studied in-depth by each student. Mathematical computing and open-ended project work forms an integral part of the learning experience. You strengthen your grounding in the subject and gain a sound grasp of the wider relevance and application of mathematics.

There are opportunities for outreach and engagement with the public on mathematics.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

MA552 - Analysis (15 credits)
MA553 - Linear Algebra (15 credits)
MA588 - Mathematical Techniques and Differential Equations (15 credits)
MA591 - Nonlinear Systems and Mathematical Biology (15 credits)
MA593 - Topics in Modern Applied Mathematics (30 credits)
MA549 - Discrete Mathematics (15 credits)
MA572 - Complex Analysis (15 credits)
MA563 - Calculus of Variations (15 credits)
MA587 - Numerical Solution of Differential Equations (15 credits)
MA577 - Elements of Abstract Analysis (15 credits)
MA576 - Groups and Representations (15 credits)
MA574 - Polynomials in Several Variables (15 credits)
MA961 - Mathematical Inquiry and Communication (30 credits)
MA962 - Geometric Integration (15 credits)
MA964 - Applied Algebraic Topology (15 credits)
MA965 - Symmetries, Groups and Invariants (15 credits)
MA968 - Mathematics and Music (15 credits)
MA969 - Applied Differential Geometry (15 credits)
MA970 - Nonlinear Analysis and Optimisation (15 credits)
MA971 - Introduction to Functional Analysis (15 credits)
MA972 - Algebraic Curves in Nature (15 credits)
MA973 - Basic Differential Algebra (15 credits)
CB600 - Games and Networks (15 credits)
MA562 - Nonlinear Waves and Solitons (15 credits)
MA960 - Dissertation (60 credits)

Assessment

Closed book examinations, take-home problem assignments and computer lab assignments (depending on the module).

Programme aims

This programme aims to:

- provide a Master’s level mathematical education of excellent quality, informed by research and scholarship

- provide an opportunity to enhance your mathematical creativity, problem-solving skills and advanced computational skills

- provide an opportunity for you to enhance your oral communication, project design and basic research skills

- provide an opportunity for you to experience and engage with a creative, research-active professional mathematical environment

- produce graduates of value to the region and nation by offering you opportunities to learn about mathematics in the context of its application.

Study support

Postgraduate resources
The University’s Templeman Library houses a comprehensive collection of books and research periodicals. Online access to a wide variety of journals is available through services such as ScienceDirect and SpringerLink. The School has licences for major numerical and computer algebra software packages. Postgraduates are provided with computers in shared offices in the School. The School has two dedicated terminal rooms for taught postgraduate students to use for lectures and self-study.

Support
The School has a well-established system of support and training, with a high level of contact between staff and research students. There are two weekly seminar series: The Mathematics Colloquium at Kent attracts international speakers discussing recent advances in their subject; the Friday seminar series features in-house speakers and visitors talking about their latest work. These are supplemented by weekly discussion groups. The School is a member of the EPSRC-funded London Taught Course Centre for PhD students in the mathematical sciences, and students can participate in the courses and workshops offered by the Centre. The School offers conference grants to enable research students to present their work at national and international conferences.

Dynamic publishing culture
Staff publish regularly and widely in journals, conference proceedings and books. Among others, they have recently contributed to: Advances in Mathematics; Algebra and Representation Theory; Journal of Physics A; Journal of Symbolic Computations; Journal of Topology and Analysis. Details of recently published books can be found within the staff research interests section.

Global Skills Award
All students registered for a taught Master's programme are eligible to apply for a place on our Global Skills Award Programme (http://www.kent.ac.uk/graduateschool/skills/programmes/gsa.html). The programme is designed to broaden your understanding of global issues and current affairs as well as to develop personal skills which will enhance your employability.

Careers

A postgraduate degree in Mathematics is a flexible and valuable qualification that gives you a competitive advantage in a wide range of mathematically oriented careers. Our programmes enable you to develop the skills and capabilities that employers are looking for including problem-solving, independent thought, report-writing, project management, leadership skills, teamworking and good communication.

Many of our graduates have gone on to work in international organisations, the financial sector, and business. Others have found postgraduate research places at Kent and other universities.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Well-qualified mathematics teachers are in high demand in London, the UK and across the world. The Mathematics PGCE programme at the IOE is rigorously informed by research, including developments internationally. Read more
Well-qualified mathematics teachers are in high demand in London, the UK and across the world. The Mathematics PGCE programme at the IOE is rigorously informed by research, including developments internationally. Students learn how to make mathematics meaningful, interesting and fun and how to analyse their own and their pupils’ development.

Degree information

The Mathematics PGCE provides an understanding of the nature of mathematics and why it is taught in schools, how pupils learn to think and reason mathematically and how to teach mathematics in such a way that learners enjoy it and choose to study it. Students will learn how to implement research and evidence informed teaching and how to conduct small scale research of your own. The programme comprises established knowledge in mathematics education, as well as the mose up-to-date, developing ideas.

Students undertake two level 7 (Master’s-level) modules of 30 credits each, totaling 60 credits. These can be carried forward onto full Master’s programmes at the IOE.

The Secondary PGCE consists of three core modules: two Master’s-level (level 7) modules, which are assessed through written assignments, and the Professional Practice module, which is assessed by the observation of practical teaching in placement schools.

Completion of the Professional Practice module and the two level 7 (Master’s level) modules (60 credits) will result in the award of a Postgraduate Certificate of Education (PGCE). Completion of the Professional Practice module and one or two level 6 (undergraduate/Bachelor’s level) modules, will lead to the Professional Graduate Certificate of Education (PgCE). There are no optional modules for this programme.

Core modules
-Mathematics, Curriculum and Pedagogy (30 Master's-level credits)
-Mathematics Curriculum in a Wider Context (30 Master's-level credits)
-Professional Practice

Placement
Student Teachers undertake at least two placements (totaling 120 days) at a school or college, during which time their teaching practice is supported by a school subject tutor and mentor. The Professional Practice module is assessed through these placements, associated tasks and a portfolio. We are fortunate to have a good choice of schools with whom we work, with many outstanding mentors and strong mathematics departments.

Teaching and learning
The Mathematics PGCE is delivered via keynote lectures, subject lectures, seminars, workshops, tutorials and directed study days at the IOE, as well as time spent in placement schools or colleges. Assessment is by the observation of practical teaching, assignments and a portfolio (which links with continuing professional development in the induction year).

Careers

Graduates of this programme are currently working across a broad range of areas. Some are working as advisers and consultants in continuing professional development, while others have jobs as mathematics teachers, heads of department and school leaders. Graduates in this area can also be found working as lecturers and researchers in mathematics education.

Top career destinations for this degree:
-Mathematics Teacher, Unspecified Grammar School
-Mathematics Teacher, Unspecified Girls' School
-Mathematics Teacher, Unspecified Secondary School
-Mathematics Teacher, Unspecified Sixth Form College
-Mathematics Teacher, Unspecified Community College

Employability
A PGCE from the IOE carries considerable currency in schools which, alongside the quality of training you receive, puts you in a strong position in the employment market. Last year, all those students who sought employment in a school were successful. We expect 100% success rate in gaining a post in a school by the end of the year.

Why study this degree at UCL?

In partnership with London schools, we support all routes into mathematics teaching, allowing students to benefit from a team of tutors with a wide range of expertise. Students will also be able to develop strong peer networks to share ideas, resources and advice.

Tutors are skilled classroom practitioners with extensive experience of teaching and leadership in secondary schools, and are all active researchers working with schools and government on policy development in the UK and overseas.

Our joint conference in June brings together nearly 200 Mathematics PGCE students from across all routes to work together with tutors and visiting experts to wrestle with policy issues in mathematics education.

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The University of Northampton has a long standing reputation for high quality teaching and research and is passionate about transforming the lives of children and young people in the UK and internationally. Read more
The University of Northampton has a long standing reputation for high quality teaching and research and is passionate about transforming the lives of children and young people in the UK and internationally.

With its thriving community of practice, Education (Mathematics) at the University of Northampton has established a well-earned national reputation. Our tutors have all taught in schools and are experts in their respective disciplines within the mathematics teaching field: the combination of our expertise is the strength of our teaching team which offers our students far more than the sum of our parts.

Our MA in Education (Mathematics) Pathway offers opportunities for graduates who work in teaching to extend their knowledge, understanding and skills. One students says‘…[the tutor] makes managing studying alongside work manageable. What we learn is so interesting it doesn’t seem like a chore. Thank you.’ (MA in Education [Mathematics] student).

Course content

The MA in Education (Mathematics) Pathway offers Level 7 study to professionals teaching mathematics to:
-Critically evaluate the impact of recent legislation and policy on mathematics provision.
-Enhance their knowledge and understanding of children’s mathematical development.
-Investigate and critique theoretical perspectives in mathematics and their applications to practice.
-Engage with research and literature influencing developments in mathematics teaching policy and practice.
-Critically explore cutting-edge developments in the mathematics teaching field, in the UK and internationally.

Throughout the MA in Education (Mathematics) Pathway, opportunities to engage in deep-level critical reflection with other like-minded professionals and specialist tutors enable our students to gain secure understanding of complex issues in the dynamic and exciting field of mathematics teaching to inform their professional practice.

The MA in Education (Mathematics) offers a flexible approach through standard or blended approaches. Participants can either choose to study a full MA degree, or may exit the programme earlier to attain other qualifications:
-Stage one: two specified M level modules, exit with a Postgraduate Certificate in Primary Mathematics.
-Stage two: two further M level modules, exit with a Postgraduate Diploma in Education (Mathematics).
-Stage three: Dissertation or Research Thesis, leading to the full MA in Education (Mathematics) degree.

Course modules (16/17)

-Research Thesis
-Curriculum Leadership in Mathematics
-Contemporary Issues in Mathematics Education
-Mathematical Topics
-Mathematical Processes
-Inclusion in Mathematics Teaching and Learning
-Organisational based Project
-Principles and Practice in Coaching and Mentoring

Methods of Learning

The entire MA involves 140 hours of taught sessions, all of which are taught as interactive sessions involving activities and discussions. This means students will typically attend classes for six hours per week if studying full time, although this may vary depending on the modules taken. In addition full-time students will be expected to undertake a further 24 hours per week of private study and research. Part-time students taking the course over three years will be expected to do one third of this. You should however be aware that this is not consistently spread across the year and that at some points you may be working considerably more hours in a week. There will also be the chance to attend additional optional sessions and presentations connected to the research undertaken at the Faculty of Education and Humanities.

Assessments

The course assessment involves essays, portfolios, presentations, practical projects and small scale studies. Students will complete their final Dissertation or Research Thesis on a topic negotiated with a tutor.

Careers

Typical career opportunities for MA graduates in the field include leadership roles in schools, lecturing in further and higher education, research in the field of mathematics education and policy development in the field of mathematics education.

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The Mathematics Education MA is for teachers, tutors and others interested in how mathematics is taught and learnt. The programme gives students the opportunity to explore issues in mathematics teaching, to consider the theoretical underpinnings, and to carry out a rigorous study of mathematical learning. Read more
The Mathematics Education MA is for teachers, tutors and others interested in how mathematics is taught and learnt. The programme gives students the opportunity to explore issues in mathematics teaching, to consider the theoretical underpinnings, and to carry out a rigorous study of mathematical learning.

Degree information

In the two core modules students consider research-based developments in mathematics teaching and their related sociological, psychological, curricular and linguistic issues, and they engage with mathematics itself, finding implications for teaching. Optional modules and the independent dissertation/report explore learning with digital technologies, study the wider values and practices of education, and allow teachers to develop and critique their own practice.

Students undertake modules to the value of 180 credits.

The Mathematics Education MA consists of two core modules (60 credits), two optional modules (60 credits) and a dissertation (60 credits) or report (30 credits). A Postgraduate Diploma, two core modules (60 credits), two optional modules (60 credits), full-time nine months or flexible study up to five years, is offered. A Postgraduate Certificate, two optional modules (60 credits),flexible study over a period of up to two years, is offered.

Core modules
-Understanding Mathematics Education
-Mathematics for Teachers

The module A level Mathematics Pedagogy is not scheduled to run in 2017-18, but is an allowed alternative core module, replacing Mathematics for Teachers.

Optional modules
-Digital Technologies for Mathematical Learning
-What is Education?

Dissertation/report
All students undertake an independent research project which culminates in a 17,000-word dissertation or 8,000-word report.

Teaching and learning
Teaching varies according to the modules and includes face-to-face seminars and discussions of reading, mathematical workshops, student presentations, as well as online interactions. Only one module, Digital Technologies in Mathematical Learning, can be studied at a distance.

Careers

Graduates of this programme are currently working across a broad range of areas. Some are working as secondary school heads of mathematics, while others have jobs as primary school mathematics leads. Graduates can also be found working as head teachers and mathematics education lecturers.

Top career destinations for this degree:
-Independent School Teacher, Girls Day School Trust (GDST)
-Maths Tutor, Elm Court School
-Secondary School Teacher (Maths and Assistant Head of Year), Acland Burghley School
-Secondary School Teacher (Maths), Park View
-Primary Teaching (School Direct), Institute of Education, University of London (IOE)

Employability
For most teachers, the Mathematics Education MA enhances their satisfaction in teaching and adds a thoughtful critique that balances the pressures of teaching. It develops skills in mathematics, pedagogy, research methods and writing. This programme is a vital stepping stone to a higher degree in mathematics education and a post in teacher education or education research. For non-teachers, this programme develops transferable skills of writing, critical analysis and understanding of how a mathematical perspective differs from other forms of reasoning.

Why study this degree at UCL?

The Curriculum, Pedagogy and Assessment Department at UCL Institute of Education is a world-leading centre for geography, business, mathematics, history, religious education, citizenship and science education. Students will work with tutors who are at the forefront of mathematics education research and who are directly involved in some of these developments.

The department provides an impressive range of cutting-edge MA and CPD courses, presented in face-to-face, distance learning or mixed mode formats. In addition we offer a first class PhD programme and staff are actively involved in an extensive range of innovative, nationally and internationally acclaimed, research and development projects.

The department's student population is very diverse: students on initial teacher education courses, practising teachers, and a rich and diverse range of international students.

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This programme is designed for graduates in mathematics, engineering, or science with excellent numeracy skills, wishing to pursue careers in the application of mathematics, in traditional areas such as engineering and science and in service areas such as finance and banking, where knowledge of modern applications of mathematics would be advantageous. Read more
This programme is designed for graduates in mathematics, engineering, or science with excellent numeracy skills, wishing to pursue careers in the application of mathematics, in traditional areas such as engineering and science and in service areas such as finance and banking, where knowledge of modern applications of mathematics would be advantageous. The core philosophy of the programme is to equip students both with mathematics and its applications and with high-level scientific software and associated numerical skills. The Greenwich campus, near the financial district of Canary Wharf, enables the department to build ties with many modern engineering and applied mathematics practitioners enabling our students to become part of a wider group. The Leslie Comrie seminar series, inviting both academics and industrialists, allows you to interact with our external links creating an advantageous learning experience. We provide you the grounds for building a high profile of understanding of current research practices in the industry. Our classes contain interactive applications that enhance the learning experience by innovative teaching practices. Utilising research expertise within the department you will graduate with a strong understanding of numerical methods. You will also develop an understanding for further applicability in various fields of applied mathematics and engineering.

This programme is suitable both for fresh graduates and also for experienced professional practitioners who wish to further their skills. The programme core modules cover modern mathematical skills together with applications across different industries, and there are optional professional modules directly related to research expertise within the Faculty. This ensures that students have an advanced understanding of both theory and practice in their selected specialist areas. Students will gain knowledge of mathematical skills and applications, computational skills, and relevant professional experience, related to traditional engineering and science modelling, modern enterprise applications, finance, and service industries. They will gain an understanding of emerging applications. There will be hands-on training in various development tools and in the use of computational software related to their professional direction. Assessment takes the form of 100% coursework, based on applications of current market practices. A supervised thesis project takes place at the end of the last teaching term during the summer months. Projects are allocated in March and students are invited to undertake a project that provides genuine insight in an area of the research interests within the department. The programme is also available on a part-time basis.

Visit the website http://www2.gre.ac.uk/study/courses/pg/maths/appmaths

Mathematics

Postgraduate mathematics students benefit from award-winning teaching and great facilities. Our programmes are informed by world-renowned research and our links with industry ensure our students develop the academic and practical skills that will enhance their career prospects.

What you'll study

Full time
- Year 1:
Option Set 1

Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are required to choose 60 credits from this list of options.

Scientific Software Design and Development (15 credits)
Inverse Problems (15 credits)
Mathematics of Complex Systems (15 credits)
Reliability and Optimisation (15 credits)

Option Set 2
Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are also required to choose 60 credits from this list of options.

Principles and Practice of Evacuation Modelling (30 credits)
Principles and Practice of Fire Modelling (30 credits)

Option Set 3

Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are also required to choose 45 credits from this list of options.

Scientific Software Design and Development (15 credits)
Inverse Problems (15 credits)
Mathematics of Complex Systems (15 credits)
Reliability and Optimisation (15 credits)

Students are also required to choose 15 credits from this list of options.

Enterprise Software Engineering Development (15 credits)
Software Tools and Techniques (15 credits)
Actuarial Mathematics and Risk Modelling (15 credits)
Financial Time Series (15 credits)
Advanced Finite Difference Methods for Derivatives Pricing (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Inverse Problems (15 credits)
Mathematics and its Applications (30 credits)
Reliability and Optimisation (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

Scientific Software Design and Development (15 credits)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematics of Complex Systems (15 credits)

Students are required to choose 15 credits from this list of options.

Advanced Finite Difference Methods for Derivatives Pricing (15 credits)
Mathematical Approaches to Risk Management (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

100% coursework: a supervised thesis project (during the summer months).

Career options

Our graduates are equipped with the tools to involve in many engineering applications and computational engineering sectors such as reliability engineering, risk management, complex engineering systems, fire safety and finance. Our expert seminar series gives you the opportunity to interact with leading figures from industry and academia and undertake projects of current industry practice. A postgraduate qualification is a major achievement and a milestone in your specialised career path leading to a professional career. The Department also offers a PhD programme which trains highly skilled candidates towards research careers in academia and industry. Our current collaborations for our PhD candidates lie with the STRIKE project for mathematical and computational applications.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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School Direct (Tuition Fee) is a route into teaching at both primary and secondary levels. Trainees join other student teachers on the established Mathematics PGCE programme at the UCL Institute of Education (IOE), whilst undertaking their teaching experience at their host school or alliance. Read more
School Direct (Tuition Fee) is a route into teaching at both primary and secondary levels. Trainees join other student teachers on the established Mathematics PGCE programme at the UCL Institute of Education (IOE), whilst undertaking their teaching experience at their host school or alliance.

Degree information

The Mathematics PGCE provides an understanding of the nature of mathematics and why it is taught in schools, how pupils learn to think and reason mathematically and how to teach mathematics in such a way that learners enjoy it and choose to study it. Students will learn how to implement research and evidence informed teaching and how to conduct small scale research of your own. Students will also be informed about established knowledge in mathematics education as well as up to date with the latest developing ideas.

Students undertake two Master’s-level (level 7) modules of 30 credits each, totaling 60 credits. These can be carried forward onto full Master’s programmes at the IOE.

The Secondary PGCE consists of three core modules: two Master’s-level modules, which are assessed through written assignments, and the Professional Practice module, which is assessed by the observation of practical teaching in placement schools.

Completion of the Professional Practice module and the two level 7 (Master’s level) modules (60 credits) will result in the award of a Postgraduate Certificate of Education (PGCE). Completion of the Professional Practice module and one or two level 6 (undergraduate/Bachelor’s level) modules, will lead to the Professional Graduate Certificate of Education (PgCE). There are no optional modules for this programme.

Core modules
-Mathematics, Curriculum and Pedagogy (30 Master's-level credits)
-Mathematics Curriculum in a Wider Context (30 Master's-level credits)
-Professional Practice

Placement
Student Teachers undertake at least two placements (totaling 120 days) at a school or college, during which time their teaching practice is supported by a school subject tutor and mentor. The Professional Practice module is assessed through these placements, associated tasks and a portfolio. We are fortunate to have a good choice of schools with whom we work, with many outstanding mentors and strong mathematics departments.

Teaching and learning
The Mathematics PGCE is delivered via keynote lectures, subject lectures, seminars, workshops, tutorials and directed study days at the IOE, as well as time spent in placement schools or colleges. Assessment is by the observation of practical teaching, assignments and a portfolio (which links with continuing professional development in the induction year).

Careers

Graduates of this programme are currently working across a broad range of areas. Some are working as advisers and consultants in continuing professional development, while others have jobs as mathematics teachers, heads of department and school leaders. Graduates in this area can also be found working as lecturers and researchers in mathematics education.

Employability
A PGCE from the IOE carries considerable currency in schools, which alongside the quality of training you receive, puts you in a strong position in the employment market. Last year, all those students who sought employment in a school were successful. We expect 100% success rate in gaining a post in a school by the end of the year.

Why study this degree at UCL?

Well-qualified mathematics teachers are in high demand in London, the UK and across the world. The Maths PGCE programme at the IOE is rigorously informed by research, including developments internationally. Students learn how to make mathematics meaningful, interesting and fun and how to analyse their own and their pupils’ development.

In partnership with London schools, we support all routes into mathematics teaching, allowing students to benefit from a team of tutors with a wide range of expertise. Students will also be able to develop strong peer networks to share ideas, resources and advice.

Tutors are skilled classroom practitioners with extensive experience of teaching and leadership in secondary schools, and are all active researchers working with schools and government on policy development in the UK and overseas.

Our joint conference in June brings together nearly 200 Mathematics PGCE students from across all routes to work together with tutors and visiting experts to wrestle with policy issues in mathematics education.

Read less
The Masters in Mathematics/Applied Mathematics offers courses, taught by experts, across a wide range. Mathematics is highly developed yet continually growing, providing new insights and applications. Read more
The Masters in Mathematics/Applied Mathematics offers courses, taught by experts, across a wide range. Mathematics is highly developed yet continually growing, providing new insights and applications. It is the medium for expressing knowledge about many physical phenomena and is concerned with patterns, systems, and structures unrestricted by any specific application, but also allows for applications across many disciplines.

Why this programme

◾Mathematics at the University of Glasgow is ranked 3rd in Scotland (Complete University Guide 2017).
◾The School has a strong international reputation in pure and applied mathematics research and our PGT programmes in Mathematics offer a large range of courses ranging from pure algebra and analysis to courses on mathematical biology and fluids.
◾You will be taught by experts across a wide range of pure and applied mathematics and you will develop a mature understanding of fundamental theories and analytical skills applicable to many situations.
◾You will participate in an extensive and varied seminar programme, are taught by internationally renowned lecturers and experience a wide variety of projects.
◾Our students graduate with a varied skill set, including core professional skills, and a portfolio of substantive applied and practical work.

Programme structure

Modes of delivery of the Masters in Mathematics/Applied Mathematics include lectures, laboratory classes, seminars and tutorials and allow students the opportunity to take part in project work.

If you are studying for the MSc you will take a total of 120 credits from a mixture of Level-4 Honours courses, Level-M courses and courses delivered by the Scottish Mathematical Sciences Training Centre (SMSTC).

You will take courses worth a minimum of 90 credits from Level-M courses and those delivered by the SMSTC. The remaining 30 credits may be chosen from final-year Level-H courses. The Level-M courses offered in a particular session will depend on student demand. Below are courses currently offered at these levels, but the options may vary from year to year.

Level-H courses (10 or 20 credits)
◾Algebraic & geometric topology
◾Continuum mechanics & elasticity
◾Differential geometry
◾Fluid mechanics
◾Functional analysis
◾Further complex analysis
◾Galois theory
◾Mathematical biology
◾Mathematical physics
◾Numerical methods
◾Number theory
◾Partial differential equations
◾Topics in algebra.

Level-M courses (20 credits)
◾Advanced algebraic & geometric topology
◾Advanced differential geometry & topology
◾Advanced functional analysis
◾Advanced methods in differential equations
◾Advanced numerical methods
◾Biological & physiological fluid mechanics
◾Commutative algebra & algebraic geometry
◾Elasticity
◾Further topics in group theory
◾Lie groups, lie algebras & their representations
◾Magnetohydrodynamics
◾Operator algebras
◾Solitons
◾Special relativity & classical field theory.

SMSTC courses (20 credits)
◾Advanced Functional Analysis
◾Advanced Mathematical Methods

The project titles are offered each year by academic staff and so change annually.

Career prospects

Career opportunities are diverse and varied and include academia, teaching, industry and finance.

Graduates of this programme have gone on to positions such as:
Maths Tutor at a university.

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This course will train you to teach mathematics across the 11-16 or 11-18 age range. It will prepare you to teach the National Curriculum, GCSE and A level. Read more
This course will train you to teach mathematics across the 11-16 or 11-18 age range. It will prepare you to teach the National Curriculum, GCSE and A level. Completion of the 10 month course leads to both a postgraduate qualification and qualified teacher status (QTS).

The course combines master's level academic study of mathematics education with a range of practical experiences. Approximately two-thirds of your time will be spent in partnership schools and colleges developing practical teaching skills with the support of trained mathematics mentors who are experienced teachers. The University works with a large variety of schools, comprehensives, grammar schools, specials schools, pupil referral units and sixth form colleges, which allows us to personalise your school experience to your individual needs.

Your practical training will be underpinned by education theories, ideas and concepts, and by enhancing your awareness of current educational issues and developments.

Mathematics is an exciting and creative subject and you will construct your own understandings through working collaboratively on engaging, challenging tasks and reflecting on your experiences.

Aims

The course will help you to develop your:
-Understanding of how children and young people learn mathematics
-Ability to differentiate teaching styles to meet learners' individual needs
-Motivational and behavior management skills
-Ability to assess and record learner achievement and raise expectations
-Awareness of historical and cultural roots of mathematics and their relevance to the classroom
-Appreciation of how mathematics can contribute across the curriculum
-Understanding of wider educational issues and current debates in mathematics education

The University-based sessions will enable you to reflect on teaching learning and pedagogy as well as encouraging you to observe how children learn, including:
-Reflections on mathematics subject knowledge and pedagogy
-Misconceptions in mathematics
-The history of mathematics
-The role of proof in the mathematics classroom
-The National Curriculum and current debates in mathematics education
-Planning lessons
-Assessment for learning
-Differentiation
-Managing pupil behavior
-Keeping records and using data to support pupils' progress

Special features

-You may be eligible for a scholarship or bursary of up to £25,000 whilst you train.
-94% of graduates in a teaching post within six months of completing the course (2013 graduates from The University of Manchester).
-Course rated as `outstanding' by Ofsted.
-Top university Secondary PGCE provider in the North West ( Good Teacher Training Guide ).
-Extensive classroom experience - up to two thirds of the course is school-based learning.

Career opportunities

On completion of your PGCE and being granted qualified teaching status (QTS), you will work for a year as a newly qualified teacher (NQT). We keep in touch with our former students and continue to support them throughout their NQT year through personal contact and by offering free NQT professional development opportunities.

A Secondary Mathematics PGCE from the University of Manchester is a valued qualification regionally, nationally and internationally. You will be given clear direction, advice and support when making applications for teaching posts and our employment rates are consistently high. 94% of our Secondary Mathematics PGCE 2013 graduates were in a teaching post within six months of completing the course, which is higher than the sector average.

Qualified teachers undertake continuous professional development throughout their career, both to maintain the latest subject knowledge and teaching techniques, and if desired, to facilitate progression into leadership and management positions. A PGCE qualification counts as 60 of the 180 credits required for a master's degree and The University of Manchester offers a part-time MA in Educational Leadership should you wish to continue your professional development by completing a master's in the future.

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Studying Mathematics at postgraduate level gives you a chance to begin your own research, develop your own creativity and be part of a long tradition of people investigating analytic, geometric and algebraic ideas. Read more
Studying Mathematics at postgraduate level gives you a chance to begin your own research, develop your own creativity and be part of a long tradition of people investigating analytic, geometric and algebraic ideas.

This programme allows you to further enhance your knowledge, creativity and computational skills in core mathematical subjects and their applications giving you a competitive advantage in a wide range of mathematically based careers. The modules, which are designed and taught by internationally known researchers, are accessible, relevant, interesting and challenging.

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School.

The Mathematics Group at Kent ranked highly in the most recent Research Assessment Exercise. With 100% of the Applied Mathematics Group submitted, all research outputs were judged to be of international quality and 12.5% was rated 4*. For the Pure Mathematics Group, a large proportion of the outputs demonstrated international excellence.

The Mathematics Group also has an excellent track record of winning research grants from the Engineering and Physical Sciences Research Council (EPSRC), the Royal Society, the EU, the London Mathematical Society and the Leverhulme Trust.

National ratings

In the Research Excellence Framework (REF) 2014, research by the School of Mathematics, Statistics and Actuarial Science was ranked 25th in the UK for research power and 100% or our research was judged to be of international quality.

An impressive 92% of our research-active staff submitted to the REF and the School’s environment was judged to be conducive to supporting the development of world-leading research.

Course structure

At least one modern application of mathematics is studied in-depth by each student. Mathematical computing and open-ended project work forms an integral part of the learning experience. There are opportunities for outreach and engagement with the public on mathematics.

You take eight modules in total: six from the list below; a short project module and a dissertation module. The modules concentrate on a specific topic from: analysis; applied mathematics; geometry; and algebra.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

MA961 - Mathematical Inquiry and Communication (30 credits) - https://www.kent.ac.uk/courses/modules/module/MA961
MA962 - Geometric Integration (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA962
MA963 - Poisson Algebras and Combinatorics (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA963
MA964 - Applied Algebraic Topology (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA964
MA965 - Symmetries, Groups and Invariants (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA965
MA966 - Diagram Algebras (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA966
MA967 - Quantum Physics (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA967
MA968 - Mathematics and Music (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA968
MA969 - Applied Differential Geometry (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA969
MA970 - Nonlinear Analysis and Optimisation (15 credits) - https://www.kent.ac.uk/courses/modules/module/MA970
Show more... https://www.kent.ac.uk/courses/postgraduate/146/mathematics-and-its-applications#!structure

Assessment

Assessment is by closed book examinations, take-home problem assignments and computer lab assignments (depending on the module). The project and dissertation modules are assessed mainly on the reports or work you produce, but also on workshop activities during the teaching term.

Programme aims

This programme aims to:

- provide a Master’s level mathematical education of excellent quality, informed by research and scholarship
- provide an opportunity to enhance your mathematical creativity, problem-solving skills and advanced computational skills
- provide an opportunity for you to enhance your oral communication, project design and basic research skills
- provide an opportunity for you to experience and engage with a creative, research-active professional mathematical environment
- produce graduates of value to the region and nation by offering you opportunities to learn about mathematics in the context of its application.

Careers

A postgraduate degree in Mathematics is a flexible and valuable qualification that gives you a competitive advantage in a wide range of mathematically oriented careers. Our programmes enable you to develop the skills and capabilities that employers are looking for including problem-solving, independent thought, report-writing, project management, leadership skills, teamworking and good communication.

Many of our graduates have gone on to work in international organisations, the financial sector, and business. Others have found postgraduate research places at Kent and other universities.

Learn more about Kent

Visit us - https://www.kent.ac.uk/courses/visit/openday/pgevents.html

International Students - https://www.kent.ac.uk/internationalstudent/

Why study at Kent? - https://www.kent.ac.uk/courses/postgraduate/why/

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Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

As an MSc by Research in Mathematics student you will be guided by internationally leading researchers and will carry out a large individual research project.

You will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Key Features

Swansea is a research-led University and the Mathematics Department makes a significant contribution, meaning that as a postgraduate Mathematics student you will benefit from the knowledge and skills of internationally renowned academics.

In the Department of Mathematics at Swansea you will find friendly teaching staff that are fully committed to providing you with a supportive teaching and learning environment. This includes outstanding student support.

All postgraduate Mathematics programmes at Swansea will equip you with skills relevant for a rewarding career in a range of diverse fields. You will also further develop your communication, presentation and analytical skills.

The Mathematics Department’s research groups include:

Algebra and Topology Group

Areas of interest include: Noncommutative geometry, Categorical methods in algebra and topology, Homotopy theory and homological algebra and others.

Analysis and Nonlinear Partial Differential Equations Group

Areas of interest include: Reaction-diffusion and reaction-diffusion-convection equations and systems, Navier–Stokes equations in fluid dynamic, Complexity in the calculus of variations and others.

Stochastic Analysis Group

Areas of interest include: Functional inequalities and applications, Lévy-type processes, Stochastic modelling of fractal, multifractal and multiscale systems, Infinite dimensional stochastic analysis and others.

Mathematical Methods in Biology and Life Sciences Group

Areas of interest include: Mathematical pharmacology; heat and mass transfer models for plant cooling; modelling cellular signal transduction dynamics; mathematical oncology: multi-scale modelling of cancer growth, progression and therapies, and modelling-optimized delivery of multi-modality therapies; multi-scale analysis of individual-based models; spreading speeds and travelling waves in ecology; high performance computing

Employability

The ability to think rationally and to process data clearly and accurately are highly valued by employers. Mathematics graduates earn on average 50% more than most other graduates. The most popular areas are the actuarial profession, the financial sector, IT, computer programming and systems administration, and opportunities within business and industry where employers need mathematicians for research and development, statistical analysis, marketing and sales.

Facilities

The Aubrey Truman Reading Room, located in the centre of the Department of Mathematics, houses the departmental library and computers for student use, and is a popular venue for students to work independently on the regular exercise sheets set by their lecturers, and to discuss mathematics together.

The main university library, the Learning and Information Centre (LIC), contains a notably extensive collection of mathematics books.

As part of our expansion, we are building the Computational Foundry on our Bay Campus for computer and mathematical sciences. This development is exciting news for Swansea Mathematics who are part of the vibrant and growing community of world-class research leaders drawn from computer and mathematical sciences.

Research

The results of the Research Excellence Framework (REF) 2014 show that our research environment (how the Mathematics Department supports research staff and students) and the impact of our research (its value to society) were both judged to be 100% world leading or internationally excellent.

All academic staff in Mathematics are active researchers and the department has a thriving research culture.

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This programme allows students to 'Upgrade to Success'. In other words, you can upgrade a non-standard qualification, or a third class honours degree, to a level equivalent to that of a first or second class honours degree. Read more
This programme allows students to 'Upgrade to Success'. In other words, you can upgrade a non-standard qualification, or a third class honours degree, to a level equivalent to that of a first or second class honours degree.

Why study Mathematics at Dundee?

The qualification that you gain from this course is a marketable addition to your CV. The skills gained through this course are highly transferable; maths is the backbone of many disciplines along a broad range of categories such as sciences and economics.

The material that is currently in the Mathematics programme covers a wide range of topics including mathematical biology, fluid dynamics, magneto hydrodynamics and numerical analysis and scientific computing as well as core subjects such as analysis and mathematical methods.

Please note that this course does not provide a direct entry route to Masters or PhD programmes at Dundee: applications for these programmes are considered separately.

The Graduate Diploma in Mathematics is made up by selecting eight Level 3 or Level 4 modules available in the Division of Mathematics. Each of these consists of 22 lectures and 11 tutorials. The standard of presentation is equivalent to that of an honours degree, and if you have a degree without honours or similar attainment, you may find a Graduate Diploma is a useful way of upgrading your qualifications.

Candidates may take any modules from the pool available, subject to timetable constraints. A total SCOTCAT credit count of 120 credits must be achieved, and since most of the relevant modules are 15 credits each, the normal program of study would consist of eight modules, four taken in each semester.

What's so good about Mathematics at Dundee?

The Mathematics division at the University of Dundee boasts an enviable staff to student ratio. Teachers are able to get to know students on a personal level, enhancing the support they can provide and improving our students' learning experience.

We also provide 24/7 access to computers dedicated to students studying mathematics to further support you throughout your studies.

How you will be taught

You will learn by a combination of lectures, tutorials, workshops and computer practical classes.

What you will study

The Graduate Diploma in Mathematics is made up by selecting eight Level 3 or Level 4 modules available in the Division of Mathematics. Each of these consists of 22 lectures and 11 tutorials. The standard of presentation is equivalent to that of an honours degree, and if you have a degree without honours or similar attainment, you may find a Graduate Diploma is a useful way of upgrading your qualifications.

Candidates may take any modules from the pool available, subject to timetable constraints. A total SCOTCAT credit count of 120 credits must be achieved, and since most of the relevant modules are 15 credits each, the normal program of study would consist of eight modules, four taken in each semester.

How you will be assessed

Coursework (20%) and a written examination (80%).

Careers

Mathematics is central to the sciences, and to the development of a prosperous, modern society. The demand for people with mathematical qualifications is considerable, and a degree in mathematics is a highly marketable asset.

Mathematics graduates are consistently amongst those attracting the highest graduate salaries and can choose from an ever-widening range of careers in research, industry, science, engineering, commerce, finance and education.

Many of our graduates enter the financial sector following career paths in accountancy, banking, the stock market and insurance.

Even if you do not take your mathematics any further than university, employers know that mathematics graduates are intelligent, logical problem solvers. With this training behind you, the career options become almost limitless.

Find out more from our Careers Service website.

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This one year full-time programme equips trainees to teach Mathematics up to and including GCSE and ICT at KS3 within the secondary sector (including Welsh medium if requested). Read more
This one year full-time programme equips trainees to teach Mathematics up to and including GCSE and ICT at KS3 within the secondary sector (including Welsh medium if requested).

This programme refreshes and extends students' mathematical and ICT knowledge and provides opportunity to make a difference to young people's lives and aspirations.

The South West Wales Centre of Teacher Education has excellent graduate employment rates with 99% of graduates going into employment or further study (DLHE 14/15).

Course Overview

The course is split into a number of modules, each designed to give you all the skills you need to teach within the secondary sector. You will study various styles of teaching Mathematics and ICT to pupils, including lesson planning, resource preparation and selection, teaching approaches for examination courses, class management and control, assessment of attainment, and the impact of Mathematics and ICT on learning.

You will be assisted in developing the range of your specialist knowledge and skills to cover all the content required for the National Curriculum at key stage three, GCSE at key stage Four and GCE 'A' level at key stage five and equivalent vocational courses.

The course will involve concept and skill development in all aspects of Mathematics and ICT. You will be expected to work together in groups to present seminars such as ICT in Mathematics, A level topics and research into mathematical misconceptions.

Other aspects of the course include the Literacy and Numeracy Framework and as a Mathematics PGCE student you will be expected to lead support sessions on Numeracy to the whole Secondary PGCE cohort. There are also opportunities to teach and be involved with Further Mathematics A Level teaching and also to be involved in Mathematics Masterclasses with local Year 9 pupils, both in conjunction with Swansea University.

The PGCE Mathematics room is well equipped with internet-linked computers and a networked interactive whiteboard. There is good access to other ICT suites for timetabled sessions and plentiful open access to ICT facilities for trainees. At University you will receive specialist sessions in ICT as well as Mathematics.

The PGCE Mathematics with ICT course uses partner schools and colleges across South Wales. Placements are decided after consultations between mentors, subject tutors and the Programme Director. All placements will be found within realistic commuting distances; however, trainees are expected to be prepared to travel to placements.

Key Features

It is available with English and Welsh medium student provision using long established English and Welsh medium partnership schools and colleges.

Most importantly we have the best employment rate throughout Wales.

The course has recently been updated to reflect contemporary issues and changes within the world of education. It is taught by highly respected tutors who have considerable knowledge within their field and chosen specialism.

The course is challenging, but motivating and invigorating, combining practical strategies and skills with academic enquiry and theory.

There are opportunities to investigate areas of specialist interest.

The course is split between university and professional teaching practice, with approximately 12 weeks and occasional days and 24 weeks split between two placements. The weeks at University are designed in such a way that you experience lead lectures both with your own subject area and with students from different subject areas in order to have an insight about how a particular issue relates to different specialist subjects. These may be given by University Staff or by guest lecturers with specialist expertise.

There are also plenty of opportunities where your experience can be enhanced such as involvement with the Further Mathematics scheme, Year 9 Mathematics Masterclasses, numeracy support sessions and expert speakers from local schools and exam boards.

Within the newly designed course if you are achieving your QTS early it is envisaged that should you wish to take the opportunity you can arrange a fortnight placement at an establishment of your choice within the Secondary or 14-19 sector. This will enable you to observe, experience a specialist area that you may wish to pursue. It could include special needs schools, independent schools and training establishments. This opportunity is likely to increase your experience and employability.

The University offers excellent support to trainees in seeking their first posts. Participants are trained in interview techniques. There is also a large and popular annual Teaching Employment Fair in January.

The employment rate for the course is one of the best in Wales and many graduates of the course are now Heads of Department or Senior Teachers and act as Mentors for the programme.

Assessment

The course comprises of 120 credits, 40 of which are at Masters level and is assessed by a combination of written assignments and Professional Teaching Experience.

The assignments are a combination of level 6 and level 7 assignments and are designed to combine practical teaching strategies and academic enquiry.

The Professional teaching practice is assess through teaching observations by both experienced placement mentors and university tutors against the Qualified Teacher Standards.

Career Opportunities

The South West Wales Centre of Teacher Education has excellent graduate employment rates with 99% of graduates going into employment or further study (DLHE 14/15).

Many school and college departments, both locally and nationally, are staffed with several of our teachers and many of our trainees have gone on to forge successful teaching careers at strategic, professional and management levels at home and abroad.

Our PGCE graduates usually remain in close touch with us as they make their careers in the teaching profession and they often become Subject Mentors on the programme. This creates a very strong, sustainable professional network of teachers which is a rich source of continuing professional development.

Recently our PGCE Maths with ICT graduates have gone on to work as Secondary teachers in many independent and state schools in Wales, England and abroad including (but not limited) to: City and County of Swansea, Merhyr Tydfil County Borough Council, Aldworth School (Basingstoke), Cwmtawe Community School (Swansea), Pontypridd High School (Pontypridd), Burnham Grammar School (Slough), Llangatwg Comprehensive School (Neath), Downham Market Academy (Norfolk), Ysgol Gyfun Gwmraeg Llangynwd (Bridgend), Lingfield Notre Dame School (Surrey), Eastern High School (Cardiff) and Pontllanfraith Comprehensive School (Caerphilly).

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This National College for Teaching and Leadership (NCTL)-accredited PGCE School Direct Secondary Mathematics course trains you to teach Mathematics to 11 to 16-year-olds. Read more
This National College for Teaching and Leadership (NCTL)-accredited PGCE School Direct Secondary Mathematics course trains you to teach Mathematics to 11 to 16-year-olds. London Metropolitan University’s partnership with local schools ensures you’ll have a continuity of support throughout both your theoretical learning and practical placements. Attendees of our PGCE Secondary courses pass with high results, with 95% achieving an Ofsted good or outstanding grade and 96% going on to obtain employment, usually with one of their placement schools. You also have access to Department of Education (DfE) bursaries as well as the Subject Knowledge Enhancement (SKE) in Mathematics if needed.

More about this course

Our PGCE School Direct Secondary Mathematics course teaches you the skills and knowledge needed for teaching mathematics to 11 to 16-year-olds (Key Stage 3 and 4) and leads to Qualified Teacher Status. This NCTL-accredited course also offers you the opportunity to develop your A level teaching where possible.

We’ll introduce you to current debates in mathematics and a wide variety of interactive teaching styles including group work and computer presentations. If you need help improving your own mathematics knowledge, we run a Subject Knowledge Enhancement course to help your training.

With our teaching placements in London, you'll improve your ability to teach in multicultural urban environments. By combining your studies at London Met with practical teaching placements, you’ll increase your understanding of the ways children learn and how your teaching style can help develop their mathematics skills.

We place great emphasis on sharing feedback between your peers and colleagues on the placement. You’ll complete a weekly reflection and contribute to discussions online in order to further develop your understanding of the role of a Secondary teacher.

The high quality of our training has led to positive feedback from Ofsted:

"Trainees and newly qualified teachers are enthusiastic about their subject, and plan and teach lessons that are well structured. They make good use of subject-specific vocabulary in their planning and teaching."
Ofsted, 2015

To help you in your application, Department of Education (DfE) bursaries are available for this course.

This PGCE course has three assessment elements:
-Practical teaching experience is assessed in relation to the Standards for Qualified Teacher Status
-A reflective portfolio is compiled across the year, detailing personal experiences and reflections on your development as a teacher
-A research assignment at the end of the year which focuses on the implementation of a key area of educational policy in the area of mathematics

There are no examinations.

Professional accreditation

This PGCE course is accredited by the National College for Teaching and Leadership (NCTL).

Modular structure

This is a year-long course.

Module 1, Curriculum Studies, includes:
-The theoretical underpinning of the practice that you will take into the classroom
-Access to the pedagogical knowledge and understanding required to effectively plan and teach well structured lessons in the secondary curriculum
-Considering all aspects of the mathematics curriculum
-Training to assess school pupils’ progress in each of these curriculum areas

Module 2, Professionalism and Inclusive Practice (PIP), includes:
-Support for your wider professional development as a teacher
-Discussion of the role of children’s rights and how this underpins effective learning relationships
-Understanding of different aspects of inclusive education
-Introduction to the whole school and wider children’s workforce
-Teamwork and collaborative discussion across different subject areas

Work placement:
-120 days in London placements, learning to teach with a mentor in secondary schools

In both university and classroom contexts your self-directed study is extremely important in order to help develop your own purposeful educational enquiry, prepare effective teaching resources and ensure up-to-date subject knowledge.

What our students say

“Choosing to complete my teacher training at London Met was the best career decision I ever made. Studying in the heart of London while being surrounded by a diverse body of staff and students was exactly the preparation I needed for teaching at inner-London secondary schools. London Met’s commitment to tackling the challenging issues surrounding modern urban education was, I believe, a key factor in my rapid progression to the position of head of department after just four years of teaching.

Having gained a unique insight into the value of teacher education throughout my undergraduate studies, I then embarked on a master’s in Education, again with London Met. After successfully completing this, I am now in my eighth year in the profession and currently considering application for a Doctorate in Education.” Rosie Walsh, former PGCE Secondary Mathematics student

After the course

This PGCE leads to Qualified Teacher Status (QTS), which enables you to teach mathematics to 11 to 16-year-olds. Our trainees have gone on to secure mathematics teacher roles at schools including Langdon Academy, Islamia Girls School and Stoke Newington School and Sixth Form.

Funding

Funding is available for many postgraduate courses leading to Qualified Teacher Status (QTS). Depending on your teaching subject and degree classification, you may be eligible for a bursary or scholarship of up to £30,000 through the teacher training bursary.

PGCE School Direct

The School Direct school placements work around the training calendar for the student teacher with the PGCE offered at the university. This means we can only offer places in Early Years / Primary and in Secondary teaching Maths, Modern Languages and Science with a specialism in Biology, Chemistry or Physics.

You will attend the training workshops at the university with other regular PGCE students and carry out placements of 120 days in a school or consortium of schools with a School Direct allocation. This time could be divided between two schools with some flexibility.

London Met has School Direct partnership with nearly 100 schools. This large body of schools have joined with us to build a cross-capital alliance, providing diverse contexts in which to train the new generation of London teachers.

Most of our trainees follow a programme modelled on the traditional PGCE, with time spent under tutor supervision at London Metropolitan University and the school placement divided between two partner schools.

Moving to one campus

Between 2016 and 2020 we're investing £125 million in the London Metropolitan University campus, moving all of our activity to our current Holloway campus in Islington, north London. This will mean the teaching location of some courses will change over time.

Whether you will be affected will depend on the duration of your course, when you start and your mode of study. The earliest moves affecting new students will be in September 2017. This may mean you begin your course at one location, but over the duration of the course you are relocated to one of our other campuses. Our intention is that no full-time student will change campus more than once during a course of typical duration.

All students will benefit from our move to one campus, which will allow us to develop state-of-the-art facilities, flexible teaching areas and stunning social spaces.

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The Applied Mathematics group in the School of Mathematics at the University of Manchester has a long-standing international reputation for its research. Read more
The Applied Mathematics group in the School of Mathematics at the University of Manchester has a long-standing international reputation for its research. Expertise in the group encompasses a broad range of topics, including Continuum Mechanics, Analysis & Dynamical Systems, Industrial & Applied Mathematics, Inverse Problems, Mathematical Finance, and Numerical Analysis & Scientific Computing. The group has a strongly interdisciplinary research ethos, which it pursues in areas such as Mathematics in the Life Sciences, Uncertainty Quantification & Data Science, and within the Manchester Centre for Nonlinear Dynamics.

The Applied Mathematics group offers the MSc in Applied Mathematics as an entry point to graduate study. The MSc has two pathways, reflecting the existing strengths within the group in numerical analysis and in industrial mathematics. The MSc consists of five core modules (total 75 credits) covering the main areas of mathematical techniques, modelling and computing skills necessary to become a modern applied mathematician. Students then choose three options, chosen from specific pathways in numerical analysis and industrial modelling (total 45 credits). Finally, a dissertation (60 credits) is undertaken with supervision from a member of staff in the applied mathematics group with the possibility of co-supervision with an industrial sponsor.

Aims

The course aims to develop core skills in applied mathematics and allows students to specialise in industrial modelling or numerical analysis, in preparation for study towards a PhD or a career using mathematics within industry. An important element is the course regarding transferable skills which will link with academics and employers to deliver important skills for a successful transition to a research career or the industrial workplace.

Special features

The course features a transferable skills module, with guest lectures from industrial partners. Some dissertation projects and short internships will also be available with industry.

Teaching and learning

Students take eight taught modules and write a dissertation. The taught modules feature a variety of teaching methods, including lectures, coursework, and computing and modelling projects (both individually and in groups). The modules on Scientific Computing and Transferable Skills particularly involve significant project work. Modules are examined through both coursework and examinations.

Coursework and assessment

Assessment comprises course work, exams in January and May, followed by a dissertation carried out and written up between June and September. The dissertation counts for 60 credits of the 180 credits and is chosen from a range of available projects, including projects suggested by industrial partners.

Course unit details

CORE (75 credits)
1. Mathematical methods
2. Partial Differential Equations
3. Scientific Computing
4. Dynamical Systems
5. Transferrable skills for mathematicians

Industrial modelling pathway
1 Continuum mechanics
2. Stability theory
3. Conservation and transport laws

Numerical analysis pathway
1. Numerical linear algebra
2. Finite Elements
3. Optimization and variational calculus

Career opportunities

The programme will prepare students for a career in research (via entry into a PhD programme) or direct entry into industry. Possible subsequent PhD programmes would be those in mathematics, computer science, or one of the many science and engineering disciplines where applied mathematics is crucial. The programme develops many computational, analytical, and modelling skills, which are valued by a wide range of employers. Specialist skills in scientific computing are valued in the science, engineering, and financial sector.

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