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Biological Sciences×

Full Time Masters Degrees in Biological Sciences, Cambridge, United Kingdom

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- Aims. It is our aim to develop in our students the skills required to submit a satisfactory MPhil thesis at the end of their chosen duration (1 year full time or 2 years part time). Read more

Overview

- Aims
It is our aim to develop in our students the skills required to submit a satisfactory MPhil thesis at the end of their chosen duration (1 year full time or 2 years part time). In order to achieve this, a student will have acquired the essential skills required to design and conduct experiments (including applying for ethics approval where necessary), to analyse results, and to communicate these both in writing and orally. These skills will include those that can be transferred successfully to their choice of academic or other career.

- Support
The MPhil at the CBU is achieved by supervised research and is under the jurisdiction of the Degree Committee for the Faculty of Biology. The provision of supervision and teaching is overseen by the Graduate School of Life Sciences. Within the CBU, the internal Graduate Committee is responsible for all aspects of the running of the degrees. A suitable project falling within the interests of the supervisor, and sustainable within the limits imposed by the facilities available at the CBU, is agreed by both student and supervisor, and endorsed by the Graduate Committee. Each graduate student has a primary Supervisor, who will supervise the main body of their research, and an Advisor who acts as a supplementary source of advice and support. We also have two pastoral tutors who offer personal support and counselling throughout a student’s time at the Unit.

- Seminars
Students attend a variety of Unit Seminars given by distinguished scientists. They are able to draw from the CBU’s panels of research volunteers, both normal and clinical, and enjoy the benefits of superb computing facilities and support staff, including a Graphics/Multimedia Officer.

- The Cambridge Graduate Programme in Cognitive and Brain Sciences
CBU students are full members of the Cambridge Graduate Programme in Cognitive and Brain Sciences, which has been jointly established by the Unit and the Departments of Psychology and Psychiatry. This consists of a weekly series of theoretical seminars presented by senior researchers from the CBU and from the University. Lectures will be held on Mondays 4-5.30pm in the West Wing Seminar Room at the MRC Cognition and Brain Sciences Unit, 15 Chaucer Road, Cambridge, CB2 7EF (unless otherwise specified), or at the Psychology department on the Downing Site in Cambridge city centre. Seminars are held during Michaelmas and Lent terms only.
All public talks are publicised on the University talks website, which also contains an archive of older lectures. All scientists at the CBU are expected to attend the two public talk series, held on Wednesdays and Thursdays.

- Facilities and Linkages
The CBU has excellent facilities for experimental behavioural studies involving normal populations and patients with brain damage, as well as institutional links with Addenbrooke’s hospital giving access to various types of patient populations, including stroke and progressive neural degenerative diseases. There is a 3 Tesla MRI scanner on the premises, as well as MEG and EEG facilities. Through its partnership with the University of Cambridge Wolfson Brain Imaging Centre, the CBU has excellent access to PET and additional fMRI (3 Tesla) facilities. The CBU also offers state of the art computing facilities, supporting Unix, PC, and Mac platforms, and handling the large volumes of neuro-imaging data as well as extensive computational modelling. All students have their own networked desktop computer, with internet access through JANET.
The Unit’s close links with the University Department of Psychology and the Department of Psychiatry are strengthened through the Cambridge Graduate Programme in Cognitive and Brain Sciences, a joint programme of termly Seminars given by members of each Department and attended by all graduate students.
The CBU is also an active member of the wider neuroscience community in Cambridge, supported by the Cambridge Neuroscience network.

- Completion on time
For MPhil students a personalised training and research programme will be agreed during the early weeks of the degree.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc

Learning Outcomes

By the end of the programme, students will have:
• a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;
• demonstrated originality in the application of knowledge, together with a practical

understanding of how research and enquiry are used to create and interpret knowledge in their field;
• shown abilities in the critical evaluation of current research and research techniques and methodologies;
• demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Continuing

There is no automatic progression from a CBU MPhil degree to a CBU PhD. MPhil students will need to apply to be considered for a PhD place alongside all other candidates.

Teaching

We offer a variety of theoretical and skills based training to support our wide range of topics and streams of research. A personalised training programme will be agreed for each incoming student in the first few weeks of the degree period. This will cover an agreed timetable of attendance at the various seminars, the research project planned, amd the formal review points throughout the degree.

- Feedback
Continuous assessment and supervision. Students can expect to receive an online feedback report each term.

Funding Opportunities

For eligible applicants, several MRC funded studentships are available, which pay the University Composition Fee, and a small but liveable stipend (currently £13,726 p.a.), however it should be noted that this money has never been allocated to an MPhil student as we always have excellent eligible PhD students whose funding takes priority. In reality a MPhil would almost certainly need to be self-funded or have external funding. Hence, independently funded applications are very welcome, and we will also always nominate successful applicants for the various Cambridge University scholarships available, depending on individual eligibility.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

Find out how to apply here http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc/apply

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc

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University of Cambridge Faculty of Biology
Distance from Cambridge: 0 miles
CBU students are full members of the Cambridge Graduate Programme in Cognitive and Brain Sciences, which has been jointly established by the Unit and the Departments of Psychology and Psychiatry. Read more
CBU students are full members of the Cambridge Graduate Programme in Cognitive and Brain Sciences, which has been jointly established by the Unit and the Departments of Psychology and Psychiatry. This consists of a weekly series of theoretical seminars presented by senior researchers from the CBU and from the University. Lectures will be held on Mondays 4-5.30pm in the West Wing Seminar Room at the MRC Cognition and Brain Sciences Unit, 15 Chaucer Road, Cambridge, CB2 7EF (unless otherwise specified), or at the Psychology department on the Downing Site in Cambridge city centre. Seminars are held during Michaelmas and Lent terms only.

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc

Course detail

It is our aim to develop in our students the skills required to submit a satisfactory MPhil thesis at the end of their chosen duration (1 year full time or 2 years part time). In order to achieve this, a student will have acquired the essential skills required to design and conduct experiments (including applying for ethics approval where necessary), to analyse results, and to communicate these both in writing and orally. These skills will include those that can be transferred successfully to their choice of academic or other

Format

We offer a variety of theoretical and skills based training to support our wide range of topics and streams of research. A personalised training programme will be agreed for each incoming student in the first few weeks of the degree period. This will cover an agreed timetable of attendance at the various seminars, the research project planned, amd the formal review points throughout the degree.

The MPhil at the CBU is achieved by supervised research and is under the jurisdiction of the Degree Committee for the Faculty of Biology. The provision of supervision and teaching is overseen by the Graduate School of Life Sciences. Within the CBU, the internal Graduate Committee is responsible for all aspects of the running of the degrees. A suitable project falling within the interests of the supervisor, and sustainable within the limits imposed by the facilities available at the CBU, is agreed by both student and supervisor, and endorsed by the Graduate Committee. Each graduate student has a primary Supervisor, who will supervise the main body of their research, and an Advisor who acts as a supplementary source of advice and support. We also have two pastoral tutors who offer personal support and counselling throughout a student’s time at the Unit.

Learning Outcomes

By the end of the programme, students will have:

• a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;

• demonstrated originality in the application of knowledge, together with a practical

understanding of how research and enquiry are used to create and interpret knowledge in their field;

• shown abilities in the critical evaluation of current research and research techniques and methodologies;

• demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Assessment

Examined by thesis (20,000 words), with an oral viva to review.

Continuing

There is no automatic progression from a CBU MPhil degree to a CBU PhD. MPhil students will need to apply to be considered for a PhD place alongside all other candidates.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

For eligible applicants, several MRC funded studentships are available (see MRC eligibility details), which pay the University Composition Fee, and a small but liveable stipend (currently £13,726 p.a.), however it should be noted that this money has never been allocated to an MPhil student as we always have excellent eligible PhD students whose funding takes priority. In reality a MPhil would almost certainly need to be self-funded or have external funding. Hence, independently funded applications are very welcome, and we will also always nominate successful applicants for the various Cambridge University scholarships available, depending on individual eligibility.

General Funding Opportunities http://www.2016.graduate.study.cam.ac.uk/finance/funding

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University of Cambridge Faculty of Biology
Distance from Cambridge: 0 miles
MPhil students must submit a dissertation for examination within the maximum period of their study. All graduate students attend induction and safety training courses in the department. Read more
MPhil students must submit a dissertation for examination within the maximum period of their study. All graduate students attend induction and safety training courses in the department. As well as undertaking your research, you will attend courses and lectures on some of the following: instrumentation, sequencing and database use, statistics, experimental design, analysing data, writing reports and a dissertation, introduction to MIMAS (a national data centre run by the University of Manchester), and how to give effective scientific presentations. Termly reports are provided on your work.

The course enables students to initiate careers in a wide range of disciplines including plant genetic engineering, plant development, plant molecular biology, plant biophysics, plant biochemistry, plant-microbe interactions, algal microbiology, plant ecology, crop biology, plant virology, plant epigenetics, epidemiology, plant taxonomy, plant physiology, eco physiology and bioinformatics.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blpsmpbsc

Course detail

For students wishing to continue on to the PhD the MPhil provides suitable foundations. For students not wishing to continue the MPhil provides specialist training in scientific methodology relevant to the project subject area and based on the expertise of the supervisor and research group. This training also enables students from other scientific areas to proceed in a career in Plant Sciences and other allied areas. General training is also available and includes courses and lectures in instrumentation, sequencing and database use, statistics, experimental design, analysing data, writing reports and a dissertation, introduction to MIMAS (a national data centre run by the University of Manchester), and how to give effective scientific presentations.

Format

The Department has the overriding aim to provide all its Graduate Students with every opportunity for a broad education and a compatible environment in which they may complete a PhD or MPhil successfully. The Department will aim to provide guidance and, where appropriate, the facilities to allow Graduate Students to develop a number of different skills including:

- Research methodologies and the process of research including quantitative and qualitative methods and data analysis; project planning and management
- The effective use of learning resources including library and information technology
- Personal skills including oral and written communication, time management and team work skills, professional development and the preparation of curriculum vitae and employment applications
- A broad knowledge of the discipline in which the Student is working
- Technical training to enable the Student to undertake their research work effectively and efficiently
- Professional presentations

After the end of each term, the Graduate Education Committee will ask for a brief report on your progress from your Supervisor. This information will be made available to you and you will be invited to respond to comments made in a termly self-assessment. This will allow you to review your own progress and to highlight any difficulties you feel you are facing.

Assessment

A submission of a Masters dissertation, with a word limit of 20,000 words, is required within 12 months from a student's registration date.

A viva voce examination of the dissertation will normally then take place.

Continuing

On successfully passing their MPhil, students are welcome to apply to continue to a PhD. Continuation is dependent on the approval of the receiving Department and Degree Committee.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Individual supervisors may hold grant linked or CASE studentships. It is best to contact supervisors directly to inquiry into availability.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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University of Cambridge Faculty of Mathematics
Distance from Cambridge: 0 miles
Introduced in 2004, this course was developed by the Cambridge Computational Biology Institute, an interdisciplinary centre bringing together the unique strengths of Cambridge in medicine, biology, mathematics and the physical sciences. Read more
Introduced in 2004, this course was developed by the Cambridge Computational Biology Institute, an interdisciplinary centre bringing together the unique strengths of Cambridge in medicine, biology, mathematics and the physical sciences.

The course is aimed at introducing students to quantitative aspects of biological and medical sciences. It is intended for mathematicians, computer scientists and others wishing to learn about the subject in preparation for a PhD course or a career in industry. It is also suitable for students with a first degree in biosciences as long as they have strong quantitative skills (which should be documented in the application).

This 11-month course consists of core modules in bioinformatics, scientific programming with R, genomics, systems biology and network biology. Before the start of the first term, students are required to attend an introductory course in molecular biology. Courses are delivered in association with several University departments from the Schools of Biological Sciences and Physical Sciences, groups within the School of Clinical Medicine, the European Bioinformatics Institute and the Sanger Institute. The course concludes with a three-month internship in a university or industrial laboratory.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/maammpcbi

Course detail

After completing the MPhil in Computational Biology, students will be expected to have:

- acquired a sound knowledge of a range of tools and methods in computational biology;
- developed the capacity for independent study and problem solving at a higher level;
- undertaken an internship project within a laboratory or group environment, and produced a project report;
- given at least one presentation on their project.

Format

The course combines taught lectures (October-April), followed by a summer internship project (May-August). There are typically 3-4 taught modules per term, and each module consists of 16 hours of lectures. Each module is assessed by coursework, and there is one general examination in May.

Placements

Students undertake a mandatory internship (May to August) in either a university or industrial laboratory. The Department will compile a list of possible opportunities which students can discuss directly with the host laboratory. Alternatively students may organise their own internship, subject to the approval of the Course Director.

Assessment

A 18,000 word (maximum) report must be written to summarise the student's internship. An oral presentation on this report must also be given.

Each module is assessed typically by two written assignments. These assignments involve significant computational elements.

A compulsory two-hour general examination is sat in May.

Continuing

MPhil students wishing to apply for a PhD at Cambridge must apply via the Graduate Admissions Office for continuation by the relevant deadline.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

Read less
Introduced in 2004, this course was developed by the Cambridge Computational Biology Institute, an interdisciplinary centre bringing together the unique strengths of Cambridge in medicine, biology, mathematics and the physical sciences. Read more
Introduced in 2004, this course was developed by the Cambridge Computational Biology Institute, an interdisciplinary centre bringing together the unique strengths of Cambridge in medicine, biology, mathematics and the physical sciences.

The course is aimed at introducing students to quantitative aspects of biological and medical sciences. It is intended for mathematicians, computer scientists and others wishing to learn about the subject in preparation for a PhD course or a career in industry. It is also suitable for students with a first degree in biosciences as long as they have strong quantitative skills (which should be documented in the application).

This 11-month course consists of core modules in bioinformatics, scientific programming with R, genomics, systems biology and network biology. Before the start of the first term, students are required to attend an introductory course in molecular biology. Courses are delivered in association with several University departments from the Schools of Biological Sciences and Physical Sciences, groups within the School of Clinical Medicine, the European Bioinformatics Institute and the Sanger Institute. The course concludes with a three-month internship in a university or industrial laboratory.

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/maammpcbi

Learning Outcomes

After completing the MPhil in Computational Biology, students will be expected to have:

- acquired a sound knowledge of a range of tools and methods in computational biology;
- developed the capacity for independent study and problem solving at a higher level;
- undertaken an internship project within a laboratory or group environment, and produced a project report;
- given at least one presentation on their project.

Format

The course combines taught lectures (October-April), followed by a summer internship project (May-August). There are typically 3-4 taught modules per term, and each module consists of 16 hours of lectures. Each module is assessed by coursework, and there is one general examination in May.

The Course Director is available throughout the year for individual meetings, and briefly meets termly with each student to check on progress. Each lecturer is also encouraged to arrange an office hour whereby students can talk about their progress.

Lectures: Typically 16 hours per module, with students taking 8 modules.

Journal Clubs: A weekly seminar is held during the first two terms on topics across Computational Biology. These seminars help students to select an appropriate project.

Placements

Students undertake a mandatory internship (May to August) in either a university or industrial laboratory. The Department will compile a list of possible opportunities which students can discuss directly with the host laboratory. Alternatively students may organise their own internship, subject to the approval of the Course Director.

Assessment

A 18,000 word (maximum) report must be written to summarise the student's internship. An oral presentation on this report must also be given.

Students give a 25 minute presentation on their project as part of the formal assessment. Some assessed coursework may also require students to present their work.

Each module is assessed typically by two written assignments. These assignments involve significant computational elements.

A compulsory two-hour general examination is sat in May.

Continuing

MPhil students wishing to apply for a PhD at Cambridge must apply via the Graduate Admissions Office for continuation by the relevant deadline.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities: http://www.2016.graduate.study.cam.ac.uk/finance/funding

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University of Cambridge Department of Medicine
Distance from Cambridge: 0 miles
The overall aims of the programme are to. - provide professionally relevant teaching and learning informed by research in an integrated clinical and research environment;. Read more
The overall aims of the programme are to:

- provide professionally relevant teaching and learning informed by research in an integrated clinical and research environment;
- develop and create a cohort of doctors and other professionals allied to medicine able to pursue and develop their roles in a rapidly-changing and challenging environment of genomic medicine;
- prepare healthcare professionals for the adoption of genomic technologies and the increasing use of genomic information as part of the diagnostic and treatment pathway;
- develop a cohort of doctors and other professionals allied to medicine with the confidence to lead service improvement for safe and high quality patient care, and with the required knowledge, skills and capability to have a positive personal impact on the work of others;
- develop a cohort of doctors and other professionals allied to medicine with an understanding of research methodologies and clinical opportunities relevant to genomic medicine;
- encourage a commitment to intellectual challenge and evidence-based clinical practice informed by the latest conceptual and theoretical knowledge of genomic medicine;
- develop students' intellectual, practical and transferable skills related to genomic medicine;
encourage critical thinking related to genomic medicine;
- conduct systematic research relevant to their professional practice.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvmgmpgnm

Learning Outcomes

The over-arching learning outcomes are:

- Knowledge and understanding -

- To enhance the students’ knowledge and critical understanding of recent developments in genomic medicine relevant to their present and future roles.
- To develop students’ knowledge and understanding of genomic medicine informed by research in a rapidly-changing integrated clinical and research environment.
- To enable deployment of new knowledge in their clinical practice, and to have a positive personal impact on the work of others in their clinical team and wider service.
- To develop an understanding of genomic technologies and to be able to use genomic information as part of the diagnostic and treatment pathway.
- To develop students’ knowledge so that they have the confidence to lead service improvement for safe and high quality patient care.
- To update and extend students’ understanding of research methodologies and clinical opportunities.
- To demonstrate knowledge, abilities and skills to engage in focused, professionally-relevant, independent learning, and through the production of a dissertation.

- Skills and other attributes -

- The skills necessary to locate, read, interpret and analyse primary and secondary sources of material enabling the development of a conceptual and theoretical understanding of recent developments in genomic medicine.
- Skills to evaluate current scholarship and research critically and to place this knowledge within the context of their own situation and practice as clinical leaders.
- The ability to formulate a research topic relevant to their clinical context, to collect and analyse primary and/or secondary sources of data, and to undertake professionally relevant research.
- The facility to communicate the results of their ideas, research and its conclusions in a written form acceptable as a work of scholarship potentially publishable in a professional or academic journal.

Format

The MPhil comprises either:

- eight modules, plus a research project and associated dissertation of 10-12,000 words, or
- ten modules, plus a literature-based research project and associated dissertation of 5-6,000 words.

Students must complete seven Core Modules and one/three further modules chosen from a range of Option Modules, with additional between-module reflection, study and assignment work.

The modules are structured as follows:

- Core Module 1: An introduction to human genetics and genomics
- Core Module 2: Omics techniques and the application to genomic medicine
- Core Module 3: Genomics of common and rare disease
- Core Module 4: Molecular pathology of cancer and application in cancer diagnosis, screening, and treatment
- Core Module 5: Application of genomics to infectious disease
- Core Module 6: Pharmacogenetics and stratified healthcare
- Core Module 7: Bioinformatics, interpretation, and data quality assurance in genome analysis

Option modules will be selected from the following list. Not all options may be offered every year.

- Option Module 1: Ethical, Legal and Social Implications in applied genomics (ELSI) **
- Option Module 2: Counselling skills for genomics
- Option Module 3: Professional and research skills
- Option Module 4: Advanced Bioinformatics – from genomes to systems
- Option Module 5: Epigenetics and epigenomics
- Option Module 6: Expanding the content of the MPhil in genomic medicine with a workplace-based module

Each core module will involve around 30 hours of contact time, including lectures, group work and online teaching.

Placements

The research project element of the course may be undertaken in a number of scientific institutions, within and without the University. This may include the University's School of Clinical Medicine, the School of Biological Sciences, the European Bioinformatics Institute, Welcome Trust Sanger Institute and, subject to approval, other suitable research institutions.

Assessment

Students must submit a dissertation of 5-6,000 words or 10-12,000 words, depending on the options selected. This will be worth 1/6th or 1/3rd of the overall mark for the course, respectively.

For each of the taught modules, students must complete summative assignments of 2500-3500 words or equivalent (except where other methods of module assessment are indicated in individual module descriptions)

Each student is allocated a named supervisor, who will meet regularly with the student to discuss progress and provide feedback and support as required. Written supervision reports are accessed via the online supervision system. Students are given feedback on the assessments conducted at the end of each module.

All students will meet with the programme director on a termly basis to discuss progress and to provide their feedback on the course.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Funding is available from Health Education England to pay course fees for NHS employees wishing to apply for this course. Prospective students wishing to apply for HEE funding should refer to the application process published by HEE at http://www.genomicseducation.hee.nhs.uk/msc-funding-info/and ensure that access to this funding is approved before applying for the course.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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The Cambridge Institute for Medical Research (CIMR) is one of the leading research institutions in the UK and provides a unique interface between clinical and basic biomedical science. Read more

Overview

The Cambridge Institute for Medical Research (CIMR) is one of the leading research institutions in the UK and provides a unique interface between clinical and basic biomedical science. Its major goal is to determine and understand the molecular mechanisms underlying human disease. The strength of the institute is that members work on a variety of diseases using a wide range of methodologies which makes it a superb place for graduate training in biological and medical sciences. CIMR has ~30 group leaders working in a range of disease mechanisms, including misfolded proteins and disease, intracellular membrane trafficking and cell biology, immunity and haematopoietic biology.

The Cambridge Institute offers a one-year full-time MPhil programme of research under individual supervision of Principal Investigators based in CIMR. This course can also be taken as part-time option over two years. During their MPhil the students are based in a research group, supported by their primary supervisor and the CIMR Graduate Education Committee.

There is no taught and examined course work, but students are encouraged to attend research seminars at the Addenbrooke's Biomedical Research Campus and elsewhere in the University, as well as graduate student seminars dealing with generic skills such as intellectual property rights, writing a thesis or paper, and entrepreneurship. Students write a dissertation, which is examined via an oral examination.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvimmpmsc

Continuing

Continuation from MPhil to PhD is possible although it is not automatic. All cases are judged on their own merits based on a number of factors including: evidence of progress and research potential; a sound research proposal; the availability of a suitable supervisor and of resources required for the research; acceptance by the Head of Department and the Degree Committee.

Teaching

- One to one supervision
Students are supervised by the PI and senior post docs. Discussions are provided on a daily basis at the bench and weekly during lab meetings and journal clubs. The supervisor on average will meet with the student every two weeks to discuss progress.

- Seminars & classes
This is a research based MPhil.

- Practicals
There are no practicals outside the laboratory-based work

- Small group teaching
Regular lab meetings within the research group

- Feedback
The supervisor on average will meet with the student on a one-to-one basis every two weeks to discuss progress with the student.

Assessment

- Thesis
The MPhil in Medical Science is examined by dissertation and viva. The dissertation must be no longer than 20,000 words and must satisfy the examiners that the candidate can design and carry out an original investigation, assess and interpret the results obtained, and place the work in the wider perspective of the subject.

Funding Opportunities

This is not a core funded MPhil program. Funding may be arranged on an individual basis with the Principal Investigator or the student may apply for outside fellowships and funding.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

Find out how to apply here http://www.graduate.study.cam.ac.uk/courses/directory/cvimmpmsc/apply

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvimmpmsc

Read less
University of Cambridge Department of Medicine
Distance from Cambridge: 0 miles
The Cambridge Institute for Medical Research (CIMR) is one of the leading research institutions in the UK and provides a unique interface between clinical and basic biomedical science. Read more
The Cambridge Institute for Medical Research (CIMR) is one of the leading research institutions in the UK and provides a unique interface between clinical and basic biomedical science. Its major goal is to determine and understand the molecular mechanisms underlying human disease. The strength of the institute is that members work on a variety of diseases using a wide range of methodologies which makes it a superb place for graduate training in biological and medical sciences. CIMR has 30 group leaders working in a range of disease mechanisms, including misfolded proteins and disease, intracellular membrane trafficking and cell biology, immunity and haematopoietic biology.

Visit the website: http://www.graduate.study.cam.ac.uk/courses/directory/cvimmpmsc

Course detail

The Cambridge Institute offers a one-year full-time MPhil programme of research under individual supervision of Principal Investigators based in CIMR. This course can also be taken as part-time option over two years. During their MPhil the students are based in a research group, supported by their primary supervisor and the CIMR Graduate Education Committee.

There is no taught and examined course work, but students are encouraged to attend research seminars at the Addenbrooke's Biomedical Research Campus and elsewhere in the University, as well as graduate student seminars dealing with generic skills such as intellectual property rights, writing a thesis or paper, and entrepreneurship. Students write a dissertation, which is examined via an oral examination.

Format

Students are supervised by the PI and senior post docs. Discussions are provided on a daily basis at the bench and weekly during lab meetings and journal clubs. The supervisor on average will meet with the student every two weeks to discuss progress.

Regular lab meetings within the research group are required.

The supervisor on average will meet with the student on a one-to-one basis every two weeks to discuss progress with the student.

Assessment

The MPhil in Medical Science is examined by dissertation and viva. The dissertation must be no longer than 20,000 words and must satisfy the examiners that the candidate can design and carry out an original investigation, assess and interpret the results obtained, and place the work in the wider perspective of the subject.

Continuing

Continuation from MPhil to PhD is possible although it is not automatic. All cases are judged on their own merits based on a number of factors including: evidence of progress and research potential; a sound research proposal; the availability of a suitable supervisor and of resources required for the research; acceptance by the Head of Department and the Degree Committee.

How to apply: http://www.graduate.study.cam.ac.uk/applying

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The MPhil in Human Evolutionary Studies is a full-time interdisciplinary course, taken over a period of ten months, and involving teaching in evolutionary anthropology, human and hominin morphology, primate behaviour and evolution, archaeology and genetics. Read more
The MPhil in Human Evolutionary Studies is a full-time interdisciplinary course, taken over a period of ten months, and involving teaching in evolutionary anthropology, human and hominin morphology, primate behaviour and evolution, archaeology and genetics. The lecturers are primarily involved in research and teaching within the Division of Biological Anthropology, in the Department of Archaeology and Anthropology.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/hsbamphes

Course detail

This taught MPhil recruits students who are prepared for graduate work and wish to receive interdisciplinary training, but who do not have sufficient education in human evolutionary studies in their background to be considered for the research MPhil or doctoral work. This is a demanding course which enables students to obtain interdisciplinary training and specialist knowledge in an area of human evolutionary studies over a relatively short time frame. The course prepares students to undertake an advanced degree, subject to performance in the examination.

Assessment

All students will write a thesis of not more than 20,000 words in length, excluding tables, appendices, and references, on a subject approved by the Degree Committee for the Faculty of Human, Social, and Political Science. This is worth 50% of the final mark.

All students will undertake a quantitative exercise on statistical analysis and interpretation, worth 10% of the final mark.

All students will write two essays of each not more than 2,500 words in length, excluding tables and references, based upon material from the core courses, as well as a 'News and Views' type of essay no longer than 1500 words. These are each worth 10% each of the final mark.

Finally, students will undertake a lab report based on one of the two lab practicals that will be carried out. The lab practicals will be based on hormones and genetics. These will contribute to 10% of the final mark.

Formative feedback is provided in written comments on essays for lecture papers and,when appropriate, for practical work. Verbal feedback is also given at the end of each term.

Continuing

MPhil students often apply to do a PhD following their masters degree and the department provides all students with the facilities and opportunities to do so.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are opportunities to apply for funding through the application process, as well as from external sources that applicants may wish to investigate.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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Gain the skills to protect and manage wildlife and habitats to make a difference to their future survival. Train in the technologies and scientific methods used in modern conservation. Read more
Gain the skills to protect and manage wildlife and habitats to make a difference to their future survival. Train in the technologies and scientific methods used in modern conservation.

See the website http://www.anglia.ac.uk/study/postgraduate/animal-behaviour-applications-for-conservation

Our course begins with 12 weeks of intensive technical skills training. We follow this with a Behavioural Ecology and Conservation module, which will teach you how to select and apply these techniques to best effect in many different settings.

You'll cover the skills and methods used in modern conservation, including advanced laboratory techniques, satellite tracking, GIS, stable isotope analysis, DNA analysis and field techniques.

You can also personalise your studies from a wide menu of optional modules which focus on different aspects of conservation. These can include a field trip to a research station in Borneo.

The final stage of your course will be a major research project with guidance and support from tutors who are world-class researchers.

Course duration: 12 months full-time or 28 months part-time (September starts), 15 months full-time or 33 months part-time (January starts).

See the website http://www.anglia.ac.uk/study/postgraduate/animal-behaviour-applications-for-conservation

Careers

Our graduates build successful careers in many roles including conservation biologist, scientist or curator at a zoo, conservation educator, ecotourism or environmental consultancy. As a conservationist you can choose work with many organisations, from private companies to NGOs and government departments. You're also in the perfect position to continue your academic career and move up to our Animal and Environmental Sciences PhD.

Modules & assessment

Core modules:
Technology and Techniques in the Study of Animal Behaviour
Behavioural Ecology and Conservation
Research Methods
Research Project

Optional modules:
Practical Applications of DNA Based Technologies
Study Tour: Understanding Biodiversity and Sustainability
GIS Tools for Biodiversity Mapping and Conservation
Introduction to Sustainability and Systems
Communication Skills for Conservation
Governance and Behavioural Change
Better Business
Changing Distribution and Invasive Species
System Pressures

Assessment

We'll assess your progress with a combination of assignments, case studies, group work and presentations, as well as your major project.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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Develop the practical skills you need for a career in wildlife conservation. Learn through a mix of face-to-face and distance-learning, on a course that’s been developed in partnership with environmental organisations to ensure you’re skilled and employable in this rewarding area. Read more
Develop the practical skills you need for a career in wildlife conservation. Learn through a mix of face-to-face and distance-learning, on a course that’s been developed in partnership with environmental organisations to ensure you’re skilled and employable in this rewarding area.

See the website http://www.anglia.ac.uk/study/postgraduate/applied-wildlife-conservation

Our planet is in urgent need of capable and well-trained wildlife conservationists to find solutions to the problems of biodiversity loss. If you’re passionate about wildlife and planning a career in conservation our exciting Masters course will equip you with the skills you need. You’ll focus on the sustainable management of wildlife and habitats, with an emphasis on developing practical field skills and the ability to analyse and interpret data in the interests of conservation. Our course has been developed with international conservation organisations, so you can be sure you’ll be gaining skills and knowledge valued by employers in the field.

Through your choice of optional modules you'll be able to focus your study on areas such as sustainability, business, wildlife management and behaviour change. Or develop deeper knowledge of skills such as wildlife conservation and biogeography. Field trips give you the chance to apply your skills whilst working on conservation projects in the UK and abroad.

You’ll have the opportunity to visit a research station in Borneo and apply your skills in a tropical forest conservation project. Every year we welcome a wide range of guest lecturers who share their inspiring and innovative experiences of working in wildlife conservation.

See the website http://www.anglia.ac.uk/study/postgraduate/applied-wildlife-conservation

Careers

Careers areas include conservation biology, environmental consultancy or in conservation education. You may find work in a non-governmental organisation (NGO), charity, zoo, private company, a government body or in a related field such as ecotourism. You’re also in the perfect position to continue your academic career and move up to our Animal and Environmental Sciences PhD.

[[Modules & assessment
Core modules:
GIS Tools for Biodiversity Mapping and Conservation
Invasive Species and Other Drivers of Distribution Change
Communication Skills for Conservation
Landscapes, Ecological Networks and Ecosystem Services
Current Topics in Wildlife Conservation
Research Methods
Masters Research Project

Optional modules:
Behavioural Ecology and Conservation
Study Tour: Understanding Biodiversity and Sustainability
Better Business
Governance and Behavioural Change

Assessment

Your work will be assessed in a range of ways to reflect the scope and aims of our course. These include assignments, field-work, case studies, group work and presentations.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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Our MSc Applied Bioscience course will develop your skills within several major areas of applied bioscience, including molecular cell biology, biomedical genetics and specialised topics in medical diagnostics. Read more
Our MSc Applied Bioscience course will develop your skills within several major areas of applied bioscience, including molecular cell biology, biomedical genetics and specialised topics in medical diagnostics. You'll focus on the rapidly evolving research into the applications of bioscience in healthcare, to diagnose and treat diseases. You'll also develop a comprehensive and critical understanding of the theory and practice of advanced analytical techniques as used and applied in bioscience.

Throughout our course you'll develop advanced knowledge and skills in the diverse areas of applied bioscience, emphasising on medical applications. Upon completion you'll be able to confidently design, execute and critically analyse both independent and group based scientific research in an appropriate area of applied bioscience.

You'll be immersed in an environment that mirrors a modern laboratory setting and benefit from the expertise of our Biomedical Science team and their intimate knowledge and collaborations within the field of bioscience. Using our purpose-built laboratory facilities, you'll be in the heart of our rapidly evolving scientific environment.

Our course is suitable for candidates who wish to specialise in the current medical applications of bioscience such as molecular and cell biology as a progression from a relevant first degree and for candidates with a strong background in ‘traditional’ analytical science (chemistry or biology).

Careers

Healthcare is a rapidly growing and constantly evolving sector. MSc Applied Bioscience course encourages the development of specialist cross-disciplinary laboratory skills, such as molecular genetics and bioinformatics, accompanied by an emphasis on professional practice. Graduates from the MSc Applied Bioscience course will have training to progress into a wide range of careers within the sciences, including industry and academic research, clinical trials, product development, production and quality assurance.

Cambridge is the home of the Wellcome Trust Sanger Institute, the Biomedical Campus at Addenbrooke's Hospital and the Babraham Research Institute. Throughout the course, you will have the opportunity to attend seminars or events with Cambridge’s many local biotechnology companies. Graduates from the course are also in the perfect position to continue an academic career and move up to our Biomedical Science PhD.

MSc Applied Bioscience is the right course for you if you:
•Want to develop a wide array of practical and conceptual scientific skills which are vital for a career in Biosciences
•Find the biosciences fascinating and want to deepen your understanding of the applications in healthcare
•Are interested in pursuing a career in research – either academic, clinical or industrial

Core modules

Molecular Genetics and Bioinformatics
Modern Medical Diagnostics
Research Methods and Preparation
Laboratory Techniques in Bioscience
Professional and Ethical Practice
Major Project

Assessment

We use a range of assessment methods to enable both you and the university to check your progress during your studies and then to ensure that you meet the required standards when you complete the course.

Although they vary, our assessment strategies are all carefully designed to challenge you so that you expand your critical and analytical thinking as well as your problem-solving skills. The assessments will enable you to demonstrate that you can synthesise existing knowledge and accumulate new knowledge, and will evidence the development of your professional practice. Some examples of assessment include poster and oral presentations, essays and portfolios of evidence. In addition, you will undertake practicals in many of the modules, developing your technical laboratory skills.

Please note that you will need to complete all of the above core modules. This course does not have any optional modules.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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University of Cambridge Department of Medicine
Distance from Cambridge: 0 miles
Sponsored by the NIHR Rare Diseases Translational Research Collaboration, this new course is part of the MPhil in Clinical Science degree programme. Read more
Sponsored by the NIHR Rare Diseases Translational Research Collaboration, this new course is part of the MPhil in Clinical Science degree programme. The objective of the course is to equip students with a strong foundation in the fundamental techniques of clinical and translational research in rare diseases, applying contemporary research tools to clinically relevant areas of investigation.

The bespoke rare disease research training will be taught by Cambridge academics and industry, and will incorporate a research project focused on rare diseases. Each student is allocated an individual supervisor, who will provide support throughout the course and help build a customised training programme.

The MPhil includes formal modular teaching in core experimental medicine modules (Statistics, Epidemiology, and Practical Aspects of Clinical Research) as well as specialist modules in Genetics and Rare Diseases. In addition, all students will have the opportunity to undertake a relevant 12 week research project with one of our outstanding supervisors, including clinicians across a range of specialities, geneticists, basic biomedical scientists and bio-medical industry partners. It also aims to provide students with broad research, study and communication skills.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvmdmprad

Course detail

Upon successful completion of the MPhil graduates will have developed a strong foundation in the fundamental knowledge and techniques required to enable them to undertake clinical and translational research in rare diseases. They will be able to apply contemporary research tools to clinically relevant areas of investigation.

The MPhil programme will produce clinical researchers who are competitive in seeking research support and who are knowledgeable about the complex issues associated with conducting sound clinical research and trials.

Format

The course consists of core modules in Practical Aspects of Clinical Research, Statistics, Epidemiology; as well as bespoke modules in Genetics and Rare Diseases, timetabled over two terms. Students will be allocated mentor groups to work on a group research project; and all students will be allocated/or negotiate an individual 12 week research project for which they will submit a thesis. The course is examined by two sat exams and thesis assessment.

Assessment

Students are expected to submit a thesis covering the research project undertaken in the second and third terms. There is a maximum length of 15000 words.

Students will sit two exams of 2 hours each. The exams will be multiple choice and structured answers.

Students are required to present their work to their supervisors lab and a supervisor report is submitted to the programme directors - this is not assessed but is used as an indication of the progress of the student.

The full-time components of the course are completed by the end of July. However, to complete the course, students will be required to attend a viva in person on a date to be set in August or early September.

Continuing

Students who are progressing well, have the support of a Principal Supervisor, and have the necessary funding, may apply during the year to continue to a PhD on successful completion of their MPhil. Such students will need to gain a pass mark of 70% or more in the MPhil examination.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There is an opportunity for UK students to apply for one of two NIHR BRC- Rare Diseases scholarship of £6500 each to supplement University/college fees.

Information on the application procedure is available from Clinical Academic Training Office -

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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If you’re passionate about sport and exercise science and want to have an impact and improve performance for future generations, the research skills you’ll develop on our course will prepare you for a rewarding career. Read more
If you’re passionate about sport and exercise science and want to have an impact and improve performance for future generations, the research skills you’ll develop on our course will prepare you for a rewarding career.

Your course will have a new home in Compass House, which will extend our campus along East Road. You’ll have the latest technology at your fingertips and be able to collaborate with other students on innovative projects to hone your skills.

Our flexible course means that you'll work in your specific interest area from day one, focusing your learning and research to become a specialist on your chosen theme.

You'll use a range of advanced techniques throughout all of your modules, including creating online tools, practical experiments, auditing and planning to create and analyse real-world data.

Continually engaging with contemporary and future issues within sport and exercise science, including legal and ethical problem-solving, you'll critically consider your long-term career goals and plan for your future.

You'll develop your practical skills by using our specialist equipment, which includes 3D motion analysis system, breath-by-breath oxygen kinetics, near Infra-red spectroscopy, GPS in-match/motion tracking software, eye tracking glasses, force plates, thoracic impedance, and blood chemistry.

Because some of our module content is delivered online, you'll have more time to either continue working in the field of sport and exercise science or take advantage of the internships and industry connections we have to increase your skills while you study. You’ll have the opportunity to shape your career and also begin to understand the professional accreditations that are open to you from industry bodies such as the British Association of Sport and Exercise Sciences (BASES).

See the website http://www.anglia.ac.uk/study/postgraduate/sport-and-exercise-science

Careers

Depending on your research focus you could enter a career in clinical- biomechanics, exercise physiology, teaching, advanced sports coaching, sports science support, sports consultancy, the NHS or further academic study. You’re in the perfect position to continue your academic career and move up to our Sport and Exercise Sciences PhD.

Modules & Assessment

Core modules -
‌• Advanced Research Practice in Exercise Science
‌• Contemporary Issues in Sport and Exercise Science
‌• Advanced Modalities in Sport and Exercise Science
‌• Research Project - Planning and Development
‌• Research Project - Pilot testing and Development
‌• Research Project

Assessment

Throughout the course, we’ll use a range of assessment methods to help you measure your progress. These include written reports, essays, reflective working, data collection online and seminar discussions, audits and technology development.

Where you'll study

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

Visit your faculty - http://www.anglia.ac.uk/science-and-technology

Where can I study?

Cambridge - Our campus is close to the centre of Cambridge, often described as the perfect student city.
http://www.anglia.ac.uk/student-life/life-on-campus/cambridge-campus

Specialist facilities

Our sport and exercise science laboratories contain industry-standard equipment including 3D motion capture suite, high speed treadmills, metabolic carts for the assessment of cardiorespiratory responses, force plates, hydrostatic weighing tank for assessing body composition, full haematology suite, an array of cycle and rowing ergometers, GPS systems for field work and eye-tracking glasses. You’ll also have access at any time to a wide range of sports science software packages.

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University of Cambridge Faculty of Biology
Distance from Cambridge: 0 miles
The course leading to the degree of MPhil is predominantly research-based. Students are based in a research group and undertake research on a topic agreed with the principal investigator (supervisor). Read more
The course leading to the degree of MPhil is predominantly research-based. Students are based in a research group and undertake research on a topic agreed with the principal investigator (supervisor). MPhil students also have an advisor and a Graduate Thesis Panel (GTP). Students write a MPhil thesis, which is examined via an oral examination. A successful student gains a pass and there are no grades. There is no examined course work. However, as part of the course candidates must complete a short lecture-based course in Michaelmas Term called “Postgraduate Course in Biochemistry”. The educational aim of the MPhil is to give candidates a grounding in biochemical and biomedical research techniques and practical experience of a year long experimental research project. The course also aims to give experience working as part of a team in an academic environment and gaining skills in scientific presentations and writing.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blbcmpbsc

Format

There is no examined course work. However, as part of the course candidates must complete a short lecture-based course in Michaelmas Term called “Postgraduate Course in Biochemistry”. This course involves a series of lectures covering a variety of useful experimental techniques used in biochemistry and molecular biology. The aim is to familiarize students with a wide range of techniques extending well beyond those that they will immediately encounter in their own research project. Students must also attend a weekly seminar series throughout the year and present their work to the group at one point during this series. We encourage students to take part in a wide range of skills training opportunities available to both Masters and PhD research students.

Students are expected to have regular (usually weekly) meetings with their supervisor. Each research group also typically has a weekly group meeting in which the student is expected to take part in presentations of research progress and in journal clubs. In addition, all students are assigned an ‘advisor’. This is a separate research group head, who is not directly involved in the student’s research project, but who can provide independent monitoring of progress, provide general advice, and serve as a first port-of-call if any problems arise. All students also have a Graduate Thesis Panel (GTP) consisting of three principal investigators, but excluding the supervisor. The role of the GTP is to provide additional support and mentoring for the student (through formal feedback), assess the tractability of the project and review the adequacy of supervision.

Learning Outcomes

The successful completion of the highly regarded MPhil in Biochemistry by research prepares the graduate for a wide range of future career opportunities ranging from PhD studies, to industrial research and ancillary work such as intellectual property and patents. The graduate will have a attained a high level of expertise in biochemical methodology and research strategy.

Assessment

The examination for the MPhil in Biological Science consists of a thesis, of not more than 20,000 words in length, excluding figures, tables, footnotes, appendices and bibliography, on a subject approved by the Degree Committee for the Faculty of Biology. The examination includes an oral examination on the thesis and on the general field of knowledge within which it falls.

Continuing

This course will lead to the degree of MPhil. We offer the PhD as a separate course.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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