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Dissertation in mathematics

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This module enables you to carry out a sustained, guided, independent study of a topic in mathematics. Currently there are four topics to choose from: history of modern geometry; advances in approximation theory; variational methods applied to eigenvalue problems; algebraic graph theory. You will be guided by study notes, books, research articles and original sources (or English translations where necessary), which are provided. You’ll need to master the appropriate mathematics and ultimately present your work in the form of a final dissertation.

Register for the course

This course is available for study in the countries shown. Fees and financial support may vary by country.


Start End Fee Register
04 Oct 2014 Jun 2015 £825.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £1370.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £825.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £1250.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £1370.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £825.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.
Start End Fee Register
04 Oct 2014 Jun 2015 £825.00

Registration closes 15/08/14 (places subject to availability)

Click to register
This course is expected to start for the last time in October 2017.

*Fees may vary by country.

What you will study

The topic ‘History of modern geometry’ covers the history of geometry in the nineteenth century. It follows the history of projective geometry and the discovery of non-Euclidean geometry from the 1820s and 1830s. It concentrates on algebraic developments in projective geometry and the work on abstract axiomatic geometry. Differential geometric aspects of non-Euclidean geometry are discussed, as is their influence on Einstein. The module ends with a discussion of geometry and physics, formal geometry and geometry and truth.

The topic ‘Advances in approximation theory’ extends the material in Approximation theory (M832) to the study of splines and piecewise polynomials and their possible application to the approximate solution of differential equations. You will need to master the appropriate mathematics and carry out computational studies using the algebraic computing software, Maple.

The topic ‘Variational methods applied to eigenvalue problems’ extends the theory developed in M820 to deal with some types of linear partial differential equations. After establishing functionals for various types of partial differential equations, the Rayleigh-Ritz method will be extended to obtain upper bounds on the smallest frequency of the oscillations of various shaped membranes. The most important part of your dissertation will involve deriving asymptotic estimates of the number, A(λ), of eigenvalues smaller that a given (large number), λ, for a various types of boundary value problems with arbitrary shaped boundaries. A number of theorems that establish increasingly better estimates of A(λ) will be investigated.

The topic ‘Algebraic graph theory’ builds on and extends selected themes covered in Graphs, networks and design (MT365), Groups and geometry (M336) and Coding theory (M836) from an algebraic viewpoint; the selection will depend on your interest. You will learn methods of investigation of graphs and graphical models of other discrete structures by algebraic means, such as spectral analysis, group theory and integer and rational polynomials. This will be achieved by studying selected chapters of the set book Algebraic Graph Theory by C. Godsil and G. Royle (Graduate Texts in Mathematics 207, Springer, 2001) and the accompanying module notes. After acquaintance with the fundamentals of these three algebraic tools, you will select an approach and deal with its application in the study of discrete structures in greater detail. The dissertation will then consist of the application of the selected algebraic approach to analysis of concrete graphs and other structures outside the set book and the module notes.

You will learn

Successful study of this module should enhance your skills in understanding complex mathematical texts, working on open-ended problems and communicating mathematical ideas clearly.

Entry

You must declare the MSc in Mathematics (or another qualification towards which the module can count) as your qualification intention. 

The module is a dissertation and assumes a high level of mathematical maturity. It is normally available only after you have passed at least four other modules in the MSc in Mathematics programme.

Because the ‘Advances in approximation theory’ topic builds on the material in Advanced mathematical methods (M833) and Approximation theory (M832), you will normally need to have passed both M833 and M832 to be accepted to study this topic.

You will normally be required to have passed Calculus of variations and advanced calculus (M820) before studying the 'Variational methods applied to eigenvalue problems' topic.

The number of students on each topic may need to be limited so you are advised to register early, noting that you may not be offered your first choice of topic.

All teaching is in English and your proficiency in the English language should be adequate for the level of study you wish to take. We strongly recommend that students have achieved an IELTS (International English Language Testing System) score of at least 7. To assess your English language skills in relation to your proposed studies you can visit the IELTS website.

If you have any doubt about the suitability of the module, please contact our Student Registration & Enquiry Service.

Qualifications

M840 is an optional module in our:

Some postgraduate qualifications allow study to be chosen from other subject areas. We advise you to refer to the relevant qualification descriptions for information on the circumstances in which this module can count towards these qualifications because from time to time the structure and requirements may change.

Regulations

As a student of The Open University, you should be aware of the content of the Module Regulations and the Student Regulations which are available on our Essential documents website.

If you have a disability

The material contains small print and diagrams, which may cause problems if you find reading text difficult. Written transcripts of any audio components and Adobe Portable Document Format (PDF) versions of printed material are available. Some Adobe PDF components may not be available or fully accessible using a screen reader and mathematical  materials may be particularly difficult to read in this way. Alternative formats of the study materials may be available in the future. Our Services for disabled students website has the latest information about availability.

If you have particular study requirements please tell us as soon as possible, as some of our support services may take several weeks to arrange. Visit our Services for disabled students website for more information, including:

  • help to determine your study requirements and how to request the support that you need  
  • Disabled Students' Allowances (DSAs)
  • using a computer for OU study
  • equipment and other support services that we offer
  • examination arrangements
  • how to contact us for advice and support both before you register and while you are studying.

Study materials

What's included

Module notes, other printed materials.

You will need

The module requires you to carry out research, and study materials are delivered via the web, so a computer or access to one is essential. It is also possible that the University may require you to submit your dissertation in electronic and not manuscript form.

Computing requirements

You will need a computer with internet access to study this course as it includes online activities, which you can access using a web browser.

  • If you have purchased a new desktop or laptop computer since 2007 you should have no problems completing the online activities.
  • If you’ve got a netbook, tablet or other mobile computing device check our Technical requirements section.
  • If you use an Apple Mac you will need OS X 10.6 or later.

You can also visit the Technical requirements section for further computing information including the details of the support we provide.

Materials to buy

Set books

  • Carl de Boor A Practical Guide to Splines - Revised edition, Springer £66.99 - ISBN 9780387953663 (Advances in Approximation Theory Option)
  • Gray, J Worlds Out of Nothing: A Course in the History of Geometry in the 19th Century, Springer £24.95 - ISBN 9780857290595 (History of Modern Geometry option. Note: Please purchase the 17 December 2010 edition)
  • Godsil, C & Royle, G Algebraic Graph Theory, Springer £36.99 - ISBN 9780387952208 (Algebraic Graph Theory option)

Teaching and assessment

Support from your tutor

You will have a tutor who will help you with the study material and mark and comment on your written work, and whom you can ask for advice and guidance.

Contact our Student Registration & Enquiry Service if you want to know more about study with The Open University before you register.

Assessment

The assessment details can be found in the facts box above.

There is no examination. The tutor-marked assignments take the form of two drafts. You will be expected to submit your drafts online using a special maths eTMA processor, which is used in place of the main eTMA system, unless there are some difficulties which prevent you from doing so. In these circumstances, you must negotiate with your tutor to get their agreement to submit your assignment on paper. We strongly recommend that you submit these drafts electronically but you will, however, be granted the option of submitting on paper if typesetting electronically or merging scanned images of material in your drafts would take you an unacceptably long time. The final assignment, the dissertation, must be submitted on paper.

Future availability

The details given here are for the module that starts in October 2014. We expect it to be available once a year.

How to register

To register a place on this course return to the top of the page and use the Click to register button.

Student Reviews

“I got through the course and finished my MSc, but I really didn't enjoy writing the dissertation on projective geometry. ...”
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Distance learning

The Open University is the world’s leading provider of flexible, high quality distance learning. Unlike other universities we are not campus based. You will study in a flexible way that works for you whether you’re at home, at work or on the move. As an OU student you’ll be supported throughout your studies – your tutor or study adviser will guide and advise you, offer detailed feedback on your assignments, and help with any study issues. Tuition might be in face-to-face groups, via online tutorials, or by phone.

For more information about distance learning at the OU read Study explained.

Course facts
About this course:
Course code M840
Credits 30
OU Level Postgraduate
SCQF level 11
FHEQ level 7
Course work includes:
2 Tutor-marked assignments (TMAs)
End-of-module assessment
No residential school

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