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Masters Degrees (Extreme Environments)

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This course will allow you to graduate with a postgraduate degree in the subject-specific discipline of physiology. Read more

Why take this course?

This course will allow you to graduate with a postgraduate degree in the subject-specific discipline of physiology. It will give you the opportunity to study physiological responses to exercise in both healthy and clinical populations, in response to extreme environments, and to examine the role of exercise as a treatment adjunct.

What opportunities might it lead to?

On this course you can:
Obtain laboratory-based skills, as well as the ability to communicate with clients in a professional and approachable style.
Gain experience of conducting research/physiological testing in simulated environmental conditions of heat, cold, humidity and/or hypoxia.
Obtain knowledge and experience of how exercise can be used in the management and treatment of various diseases.

What opportunities might it lead to?

The programme will provide knowledge, skills and experience required to undertake work as a physiologist or specialised technician. Some specific examples are listed below.

Here are some routes our graduates have pursued on allied courses:
health and wellbeing physiologist
health advisor
clinical Exercise Physiologist
exercise Referral Coordinator
personal Trainer
PhD research
technician

Module Details

The programme will be offered in full-time (12 months) and part-Time (24 months) study modes, with the academic year running from September to September. The course includes 120 credits of taught units (delivered on Thursdays during term time) and a 60 credit research project.

Core units include:

Applied Research Methods (30 credits)
Research Project (60 credits)
90 credits are required from a choice of:

Applied Sports Physiology (30 credits)
Environmental Factors Affecting Sports Performance (30 credits)
Exercise Rehabilitation (30 credits)
Clinical Physiology (30 credits)

Programme Assessment

The delivery format for the course is based around seminar, practical, workshop and to a lesser extent, lectures. Sessions will be delivered by DSES staff with knowledge and research expertise in the areas studied.

Assessments include client/patient-focused practical and written assessments as well as some more traditional report writing assessments:

Practical assessments
Laboratory reports
Client reports
Case studies
Project report

Student Destinations

The skills-sets developed will permit students to enter a range of career pathways, examples of which are listed below. The course will provide essential underpinning knowledge for those who may wish to pursue professional training to possess qualifications to provide exercise in clinical populations e.g. cardiac rehabilitation, pulmonary rehabilitation etc. The course will also permit students to gain experience of physiological responses in ‘normal’ conditions as well as extreme environments. This is particularly relevant for those students who wish to pursue employment by providers such as the Ministry of Defence (in particular Defence Science and Technology Laboratory), English Institute of Sport and UK Sport.

Roles our graduates have taken on include:

PhD researcher leading to employment as a professional scientist
Health and wellbeing physiologist
Health advisor
Clinical Exercise Physiologist
Exercise Referral Coordinator
Personal Trainer

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This unique Masters programme is delivered in partnership between the University of Exeter Medical School and World Extreme Medicine, the world’s leading provider of specialist training courses for medics taking their skills into challenging environments. Read more
This unique Masters programme is delivered in partnership between the University of Exeter Medical School and World Extreme Medicine, the world’s leading provider of specialist training courses for medics taking their skills into challenging environments.

The programme’s hallmarks are the practical skills, knowledge and understanding needed to perform at the highest possible level in the field of extreme medicine. Key features are the residential locations of the courses across the UK, and environment specific modules located in mountain, jungle, desert and polar regions. This is medicine at its best, crossing geographical and professional boundaries.

You will be likely to work with the wider healthcare community - paramedics, nurses, doctors, and military medics. You will be working or looking to work in situations of rapid change and uncertainty and you will be looking to demonstrate capabilities that extend beyond clinical competence into areas such as leadership, communications, teamwork, resilience, humanitarian relief, planning and logistics The programme’s foundations are rooted in the core values of collaboration, challenge, community, impact and rigour, embedded firmly within the University’s mission to make the exceptional happen, by challenging traditional thinking and defying conventional boundaries.

The programme is delivered part time over three years leading from the Post Graduate Certificate in Extreme Medicine in year one to the full Post Graduate Masters qualification in year three.

Programme structure

You will critically examine the challenges of providing safe and effective healthcare in a range of challenging environments. You will focus on both the evaluation of health issues to be expected in the field and the planning and preparation phase for any remote or wilderness activity. Key to the programme is that you learn to recognise and evaluate the unique ethical, professional and legal challenges of delivering medical care in challenging environments. The programme will develop in you, the skills necessary to evaluate research literature, and manage the challenge of implementing health interventions where evidence may be weak or conflicting.

A key part of the programme are the short residential courses designed to provide the challenge of learning in an unfamiliar environment and relying on the collaboration and support of the other participants.

Expert tutors will facilitate group discussions and project work and provide support for independent learning. Assessments are designed to provide opportunities for personal reflection, critical appraisal, evaluation and analysis to demonstrate the knowledge and skills gained throughout the programme.

Modules and delivery

The programme has a modular structure and consists of three modules for the PG Cert, with a further 60 credits of modules for the PG Dip, and the addition of the 60 credit MSc research project for the full MSc.
Below are some examples of the modules you might expect on this course include the following;

PgCert

For the PgCert, the following are residential modules; Core Concepts in Extreme Medicine; Pre-hospital Trauma, Assessment and Treatment and Human Factors – Situational Awareness

PgDip and MSc

Some examples of the modules under development for the PgDip and MSc are as follows;
• Pre Hospital Trauma Care
• Maternal and Children’s Health
• Mountain Medicine
• Polar Medicine
• Jungle Medicine
• Applied Research methods
• Disaster and Humanitarian Medicine Theory and Practical Pre hospital emergency care
• Obstetrics and Gynaecology and maternal and child health, in remote areas and
• Research/Dissertation

The modules we outline here provide examples of what you can expect to learn on this programme based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand. Please see website for up to date information at http://www.exeter.ac.uk/postgraduate/taught/medicine/extrememedicinemsc/#Programme-structure

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Human & Applied Physiology enables students to gain a theoretical and practical understanding of the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise, including the effects of extreme environmental conditions on whole body physiology. Read more
Human & Applied Physiology enables students to gain a theoretical and practical understanding of the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise, including the effects of extreme environmental conditions on whole body physiology. Leads to careers in teaching and research, medicine, physiotherapy, health services, physical education.

Key benefits]

- The original and foremost programme in human and applied physiology in the UK.

- Training in a wide variety of practical laboratory skills pertaining to human physiology.

- A knowledge base of human physiology particularly relevant for careers in biomedical research and medicine.

- Lectures from world leading experts in a variety of different fields.

- Unique exposure of human physiology applied to aviation and military medicine only available at King's College London.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/human-and-applied-physiology-msc.aspx

Course detail

- Course description -

The programme is run by King's College London Department of Physiology. It provides a theoretical and practical basis for explaining the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise. This extends to the effects of extreme environmental conditions on whole body physiology. Programme topics are studied from both systemic and cellular/molecular perspectives in order that students have a good understanding of the breadth of investigative approaches employed in human physiology research.

- Course purpose -

This programme equips students in biomedical/life science and sport science with value added knowledge and skills to enhance understanding and expertise in human physiology in its broadest sense. Graduates from the programme pursue careers in academic research/teaching, medicine, physiotherapy, health services, physical education, research posts in industry and in Ministry of Defence Research establishments.

- Programme format and assessment -

Taught modules comprise lectures, tutorials and seminars with a significant practical component. You will also undertake a significant research project.

Required modules:

- Cardiovascular & Respiratory Physiology from Rest to Exhaustive Exercise
- Human & Applied Physiology Library Project
- Human & Applied Physiology Research Project
- Human Physiology in Extreme Environments
- Key Topics in Human Health and Performance
- Skeletal Muscle Function, Fatigue and Plasticity - from Movement to Molecules

Career prospects

Our graduates go on to careers in academic teaching and research, medicine, clinical physiology, health services, sports science support, and research posts in industry or in Ministry of Defence Research Establishments.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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Our programme equips you for a career in sport, exercise and clinical biomechanics. You will gain in-depth knowledge into how theoretical biomechanics can be applied to the understanding and development of movement for sport, exercise and clinical applications. Read more

Summary

Our programme equips you for a career in sport, exercise and clinical biomechanics. You will gain in-depth knowledge into how theoretical biomechanics can be applied to the understanding and development of movement for sport, exercise and clinical applications.

Our MSc in Biomechanics will enable you to support the physical development and health of sports people engaged in intensive training and exercise. This programme critically examines the theoretical basis of methods of assessment and the practical application of data within biomechanics. It offers you a means of studying biomechanics from a discipline-specific standpoint.

You will be taught by staff who are committed to pursue excellence in the field of sport, exercise and health sciences and have achieved a high level of expertise within their profession.

The Sport and Exercise Research Centre houses one of the best sport science laboratory facilities in London. You will have access to our biomechanics laboratory and physiology laboratory during your study here.

You will be able to collaborate with our members of the Sport and Exercise Science Research Centre engaged in range of multidisciplinary research themes including: Neuromusculoskeletal Function through the Ages; Extreme Environments; Amputee Mobility; Performance and Well-Being; and Exercise Adherence and Health.

Roehampton has over twenty-five years' experience of teaching Sport Science and has run Masters level Sport Science programmes since 1997. Over this time, we have constantly embraced changes in the profession and utilised student feedback to ensure that our programmes are relevant, inspiring and provided to the high standards.

Content

You will study modules that provide both the theory and hands-on application in areas such as biomechanical assessment/support techniques, neuromuscular function, and biomechanics of gait. The teaching in these modules is both in-depth and highly practical, with extensive use of laboratory facilities such as Vicon 3D motion capture system, 2D video analysis, Kistler force plates, isokinetic dynamometers, ultrasound scanners, electromyography, and neuromuscular electrical stimulator.

You will also have the opportunity to gain two weeks work placement in gait laboratories of Guys and St Thomas’s Hospital and Queen Mary’s Hospital. Through this placement our previous graduates have developed their clinical gait analysis skills and have enhanced their employability within the field of Biomechanics.

In your research dissertation, you will have the opportunity to perform focused research in a project to be developed with our staff member with the view for publication in a peer-reviewed journal.

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Do you want to focus your scientific career on one of the fastest moving sectors of science? The UK has hundreds of biotech companies and is a leader in innovating specialist products from living organisms. Read more
Do you want to focus your scientific career on one of the fastest moving sectors of science? The UK has hundreds of biotech companies and is a leader in innovating specialist products from living organisms. Biotech applications are enhancing food production, treating medical conditions, and having a significant impact on the global future.

Given the common expectation for job candidates to have some form of postgraduate qualification, this Masters course offers a route to careers in biotechnology as well as the broader life sciences industry. If your first degree included the study of genetics and molecular biology, and a research module, you’re well-placed to join us.

This course can also be started in January (full time 21 months) - for more information please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/biotechnology-dtfbty6/

Learn From The Best

The quality of teaching in life sciences at Northumbria has been recognised by strong performance in student-led awards, Further evidence of academic excellence is the number of invitations to members of our team to join the editorial boards of scientific journals.

Our teaching team maintains close links with biotech companies and research labs, including via on-going roles as consultants, which helps ensure an up-to-date understanding of the latest technical and commercial developments. Several academics are involved in biotech ventures that make use of the University’s facilities: Nzomics Biocatalysis develops enzyme alternatives to chemical processes, and Nu-omics offers DNA sequencing services.

Teaching And Assessment

We aim for interactive teaching sessions and you will engage in discussions, problem-solving exercises and other activities. Teaching can start in the lab or classroom and then you make the material your own by exploring and applying it. Technology Enhanced Learning makes this easier; each module has an electronic blackboard site with relevant information including electronic reading lists and access to websites, videos and other study materials that are available anytime, anywhere.

You will undertake assignments within small groups and we provide training in communication skills relevant for scientific communication. The course aims to foster your ability to work at a professional standard both individually and as part of a team.

Module Overview
AP0700 - Graduate Science Research Methods (Core, 20 Credits)
AP0701 - Molecular Biology (Core, 20 Credits)
AP0702 - Bioinformatics (Core, 20 Credits)
AP0703 - Subject Exploration (Core, 20 Credits)
AP0704 - Industrial Biotechnology (Core, 20 Credits)
AP0705 - Current Topics in Biotechnology (Core, 20 Credits)
AP0708 - Applied Sciences Research Project (Core, 60 Credits)

Learning Environment

The technical facilities at Northumbria University are excellent. We are fully equipped for molecular biology manipulations and imaging – techniques include RT-PCR to show whether or not a specific gene is being expressed in a given sample. We also have pilot scale bioreactors so that we can scale up experiments and processes.

For cell biology and immunology, we have two multi-user laboratories. Technologies include assays for measuring immune responses at the single-cell level, and for monitoring the functioning of cells in real time. Further capabilities include biomarker analysis, flow cytometry, chemical imaging and fluorescence microscopy. For genomics, proteomics and metabolomics, our capabilities include genomic sequencing, mass spectrometry, 2D protein electrophoresis and nanoflow liquid chromatography.

All our equipment is supported up by highly skilled technical staff who will help you make the best use of all the facilities that are available.

Research-Rich Learning

In fast-moving fields like biotechnology, it’s particularly important for teaching to take account of the latest research. Many of our staff are conducting research in areas such as molecular biology, bio-informatics, gene expression and micro-biology of extreme environments. They bring all this experience and expertise into their teaching.

As a student, you will be heavily engaged in analysing recent insights from the scientific literature. You will undertake a major individual project in molecular and cellular science that will encompass all aspects of a scientific study. These include evaluation of relevant literature, design and set-up of experiments, collection and processing of data, analysis of results, preparation of a report and presentation of findings in a seminar.

Give Your Career An Edge

Many recruiters in the biotech industry expect candidates to have studied at postgraduate level so our Masters qualification will help you get through the door of the interview room. Once there, your major project and other assignments will help ensure there is plenty to catch their attention. Employers are looking for the ability to solve problems, think critically, work with others and function independently – which are exactly the attributes that our course develops to a higher level.

During your time at Northumbria, we encourage you to participate in the activities organised by the Career Development Service. We also encourage you to apply for associate membership of the Royal Society of Biology, with full membership becoming possible once you have at least three years’ postgraduate experience in study or work.

Your Future

The biotech industry has made huge progress in the last few decades and the years ahead promise to be even more transformational. With an MSc Biotechnology, you will be ready to contribute to the changes ahead through a rigorous scientific approach and your grasp of the fundamental knowledge, insights and skills that underlie modern biotechnology.

Scientific research is at the heart of the course and you will strengthen pivotal skills that will enhance your employability in any research-rich environment. By developing the practices, standards and principles relevant to becoming a bioscience professional, you will also prepare yourself for success in other sectors of the life sciences industry and beyond.

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Want to be at the forefront of scientific research into microbes and their role in developing new medicines, tackling diseases and improving the environment?. Read more
Want to be at the forefront of scientific research into microbes and their role in developing new medicines, tackling diseases and improving the environment?

Northumbria is the only UK university to offer Microbiology as an individual discipline, giving you the opportunity to develop specialist knowledge and break new ground as a scientist.

Gain hands-on, immersive experience, in high tech facilities, working alongside leading academics. Advance your expertise in clinical and environmental microbiology, studying how viral and bacterial diseases work and how you can use microbes to create new medicines.

You’ll cover microbial taxonomy, bioinformatics and molecular biology, using bacteria and viruses to develop new technologies and substances through data analysis and genome sequencing.

With opportunities to develop your theoretical knowledge, advance your own research, and increase your profile through articles and publications, this course equips you for further PhD study or for a career in microbiology.

This course is also available part time - for more information, please view the web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/microbiology-dtpmgy6/

Learn From The Best

Specialising in a wide range of research areas, from developing enzymes for pharmaceutical, chemical and food industries, to life in extreme environments, your academic team reflect the varied, multi-disciplinary nature of microbiological science.

Tutors are active researchers in their chosen specialisms and share their knowledge through teaching, scientific conferences and publications. Many have established relationships with professional microbiology organisations and lead policy and practice within the profession.

Combining industry experience and research expertise, you’ll benefit from their knowledge and real-life insights as you develop your skills and understanding.

Teaching And Assessment

You’ll enhance your knowledge of this broad subject matter through in-depth, research focused and real-life learning.

You’ll gain skills in applying tools, techniques and methods related to molecular biology, microbial culture and classification and in functional analysis of microbial and viral genomes.

With an emphasis on individual learning and problem solving using the latest research, as part of the course, you’ll undertake a research project based on a currently relevant question. This will allow you to develop your particular specialism or interest and focus your study on practical research.

You’ll be assessed on your ability to apply your subject knowledge to real-world challenges in the form of assessment tasks as well as being measured in key laboratory skills.

Module Overview
AP0700 - Graduate Science Research Methods (Core, 20 Credits)
AP0701 - Molecular Biology (Core, 20 Credits)
AP0702 - Bioinformatics (Core, 20 Credits)
AP0703 - Subject Exploration (Core, 20 Credits)
AP0706 - Microbes and Disease (Core, 20 Credits)
AP0707 - Microbial Diversity (Core, 20 Credits)
AP0708 - Applied Sciences Research Project (Core, 60 Credits)

Learning Environment

You’ll get hands-on experience in our large, modern well-equipped laboratories with audio-visual facilities that help you observe, learn and question techniques and ideas.

High-tech wet and dry labs which are fully equipped for molecular biology manipulations are available to help you work on your own research projects.

While some modules are conventionally taught, you’ll benefit from a mixture of learning experiences including lectures, small group seminars and laboratory sessions, adding a practical edge to your theoretical understanding.

Research-Rich Learning

The internationally recognised and well-established group, led by Professor Iain Sutcliffe, apply scientific approaches to aspects of healthcare and extend understanding of diseases.

Research areas include:
-Bacterial cell envelope architecture and biosynthesis
-Control of parasitic arthropods
-Microbial diagnostics (in collaboration with Applied Chemistry)
-Microbial enzymes as biocatalysts (through our Nzomics Innovation Unit, in collaboration with Applied Chemistry)
-Molecular ecology and microbial community analysis in human health (COPD, cystic fibrosis and necrotising enterocolitis)
-Molecular ecology and microbial community analysis in the environment (Lake Suigetsu, Japan; Polar environments) and in agricultural management
-Genomics and proteomics of prokaryotes
-Novel antimicrobials (in collaboration with Applied Chemistry)
-Systematics and taxonomy of bacteria
-Virulence determinants in pathogenic streptococci

Microbiological and virological based techniques to study; virus-host interactions and phage genomics (through our Nu-omics). Research is funded by companies, charities and research council grants.

Give Your Career An Edge

This course has been designed to help you develop specific knowledge and practical skills in Microbiology based on work-related learning. Teaching and assessment throughout the course is based on problem solving linked to a practical approach to current research.

You’ll have opportunities for work-based learning and to be an ambassador for STEM activities, gaining valuable professional experience and applying your knowledge in real-world situations.

Your research project provides a chance to showcase your interests and ability to define, formulate and test a hypothesis through careful experimental design, method development, data capture and analysis and communicating your findings.

You’ll be able to demonstrate transferable skills valued by employers including critical thinking, working as part of a group, data mining and record keeping, alongside problem solving, independent learning, and communication with both technical and non-technical audiences.

Your Future

The MSc Microbiology course will support and inspire you to high achievement in employment or further education and research in your chosen specialism.

Building on your theoretical knowledge with practical and laboratory skills you’ll show that you can tackle complex problems with confidence, skill and maturity as you develop key strengths in critical thinking and expressing opinions based on evidence.

The practices and procedures of Microbiology and Virology, together with logical thinking, attention to detail and a questioning mind will equip you with skills suitable for a range of careers in human health and disease, environmental studies and industrial or biotechnical industries.

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The biotechnological applications of molecular biology underpin major industries in the medical and agricultural sectors. Insights from the study of genetic material are already benefitting the development of new diagnostic tests, therapeutic agents, bioenergy production systems, improved crops and more. Read more

About the course

The biotechnological applications of molecular biology underpin major industries in the medical and agricultural sectors. Insights from the study of genetic material are already benefitting the development of new diagnostic tests, therapeutic agents, bioenergy production systems, improved crops and more. The range and value of these developments is rapidly increasing.

This exciting MSc Molecular Biology and Biotechnology program provides training for bioscience graduates to develop confidence and independence in their practical skills and knowledge relevant to careers in this area. Successful graduates will be ready to undertake further study at PhD level or to enter employment in the biotechnology sector.

You’ll learn essential practical skills; study the relevant theory in the Departments of Molecular Biology and Biotechnology (MBB) and Chemical and Biological Engineering (CBE); and carry out an individual research project, in which you’ll learn how to design and conduct research, keep records and present the research in different styles.

Where your masters can take you

Our graduates work in health care, pharmaceuticals, food safety and production, brewing and agrochemicals. Many of our masters students go on to do a PhD then pursue a career in research; others have gained entry to the prestigious NHS Scientist Training Programme (STP).

An international reputation

The 2014 Research Excellence Framework (REF) ranks Sheffield No 1 for biomedical research and in the UK top five for biological sciences generally. We have regular seminars from distinguished experts, and our motivated staff undertake collaborative research ranging from biotechnology to medicine.

Teaching and assessment

Our masters courses give you a solid grounding in experimental science, with personal supervision and tutorials by experienced scientists, based in modern and well-equipped labs, leading on to a research project in which you design and conduct your own research. You will learn cutting edge science from research leaders, and gain practice in reading the scientific literature and writing reports. Assessment is based on a combination of coursework, project work, formal examinations and a dissertation.

Core modules

Laboratory Skills in Molecular Bioscience; Principles of Biochemical Engineering; Advanced Research Topics; Literature Review; Research Project (typical research areas include plant genetic engineering, engineering of proteins of commercial importance, or genetic studies by random mutagenesis).

Examples of optional modules

Choose two from: The RNA World, Cells as Factories, Plant Biotechnology, Microbiology of Extreme Environments.

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Train in the practical and theoretical elements of sport and exercise science. Explore the broad spectrum of areas that underpin health; sport and exercise. Read more
Train in the practical and theoretical elements of sport and exercise science. Explore the broad spectrum of areas that underpin health; sport and exercise. With our state-of-the-art facilities and science-based approach, you gain a solid understanding of the biology, physiology, biomechanics, nutrition and psychology of sport.

You study a wide variety of topics including:

- The analysis of movement
- The impact of nutrition and drugs
- How extreme environments can affect human performance
- Paediatric exercise science
- Sport psychology

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Our MSc Computational Finance equips you with the core concepts and mathematical principles of modern quantitative finance, plus the operational skills to use computational packages (mainly Matlab) for financial modelling. Read more
Our MSc Computational Finance equips you with the core concepts and mathematical principles of modern quantitative finance, plus the operational skills to use computational packages (mainly Matlab) for financial modelling.

We provide practical, hands-on learning about how modern, highly computerised financial markets work, how assets should be priced, and how investors should construct a portfolio of assets. In addition to traditional topics in derivatives and asset pricing, we place a special emphasis on risk management in non-Gaussian environment with extreme events.

You master these areas through studying topics including:
-Non-linear and evolutionary computational methods for derivatives pricing and portfolio management
-Applications of calculus and statistical methods
-Computational intelligence in finance and economics
-Financial markets

You also graduate with an understanding of the use of artificial financial market environments for stress testing, and the design of auctions and other financial contracts.

Our Centre for Computational Finance and Economic Agents is an innovative and laboratory-based teaching and research centre, with an international reputation for leading-edge, interdisciplinary work combining economic and financial modelling with computational implementation.

Our research is geared towards real-world, practical applications, and many of our academic staff have experience of applying their findings in industry and in advising the UK government.

This course is also available on a part-time basis.

Professional accreditation

This degree is accredited by the Institution of Engineering and Technology (IET).This accreditation is increasingly sought by employers, and provides the first stage towards eventual professional registration as a Chartered Engineer (CEng).

Our expert staff

This course is taught by experts with both academic and industrial expertise in the financial and IT sectors. We bring together leading academics in the field from our departments of economics, computer science and business.

Our staff are currently researching the development of real-time trading platforms, new financial econometric models for real-time data, the use of artificially intelligent agents in the study of risk and market-based institutions, operational aspects of financial markets, financial engineering, portfolio and risk management.

Specialist facilities

We are one of the largest and best resourced computer science and electronic engineering schools in the UK. Our work is supported by extensive networked computer facilities and software aids, together with a wide range of test and instrumentation equipment.
-We have six laboratories that are exclusively for computer science and electronic engineering students. Three are open 24/7, and you have free access to the labs except when there is a scheduled practical class in progress
-All computers run either Windows 7 or are dual boot with Linux
-Software includes Java, Prolog, C++, Perl, Mysql, Matlab, DB2, Microsoft Office, Visual Studio, and Project
-Students have access to CAD tools and simulators for chip design (Xilinx) and computer networks (OPNET)
-We also have specialist facilities for research into areas including non-invasive brain-computer interfaces, intelligent environments, robotics, optoelectronics, video, RF and MW, printed circuit milling, and semiconductors

Your future

We have an extensive network of industrial contacts through our City Associates Board and our alumni, while our expert seminar series gives you the opportunity to work with leading figures from industry.

Our recent graduates have gone on to become quantitative analysts, portfolio managers and software engineers at various institutions, including:
-HSBC
-Mitsubishi UFJ Securities
-Old Mutual
-Bank of England

We also work with the university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.

Example structure

-CCFEA MSc Dissertation
-Financial Engineering and Risk Management
-Introduction to Financial Market Analysis
-Learning and Computational Intelligence in Economics and Finance
-Professional Practice and Research Methodology
-Quantitative Methods in Finance and Trading
-Big-Data for Computational Finance (optional)
-Industry Expert Lectures in Finance (optional)
-Mathematical Research Techniques Using Matlab (optional)
-Programming in Python (optional)
-Artificial Neural Networks (optional)
-High Frequency Finance and Empirical Market Microstructure (optional)
-Machine Learning and Data Mining (optional)
-Trading Global Financial Markets (optional)
-Creating and Growing a New Business Venture (optional)
-Evolutionary Computation and Genetic Programming (optional)
-Constraint Satisfaction for Decision Making (optional)

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This interdisciplinary MSc offers a wide programme of study related to the physics of planetary and space environments, including planetary interiors, atmospheres… Read more
This interdisciplinary MSc offers a wide programme of study related to the physics of planetary and space environments, including planetary interiors, atmospheres and magnetospheres; the impact of the space environment on human physiology; and research project work which provides potential opportunity to work with established planetary researchers at UCL and Birkbeck, some of whom are involved in active or planned space missions.

Degree information

Students develop insights into the techniques used in current projects, and gain in-depth experience of a particular specialised research area through project work as a member of a research team. The programme provides the professional skills necessary to play a meaningful role in industrial or academic life.

Students undertake modules to the value of 180 credits.

The programme consists of a choice of three core modules (45 credits), three optional modules (45 credits), a research essay (30 credits) and a dissertation (60 credits). A Postgraduate Diploma consisting of three core modules (45 credits), three optional modules (45 credits) and a research essay (30 credits); full-time nine months is offered.

Optional modules 1 (15 credits each) - students choose three from:
-Deep Earth and Planetary Modelling
-Earth and Planetary Materials
-Planetary Atmospheres
-Space Plasma and Magnetospheric Physics
-Remote Sensing and Planetary Surfaces
-Physics of Exoplanets

Optional modules 2 (15 credits each) - students choose three from the following:
-Earth and Planetary System Science
-Melting and Volcanism
-Solar Physics
-Astronomical Spectroscopy
-Physics of the Earth
-Space Medicine and Extreme Environment Physiology
-Comets, Asteroids and Meteorites
-Advanced Topics in Planetary Science

Alternatively students may also choose a fourth module from the Optional modules 1 list and two from the Optional modules 2 list above.

Dissertation/report
All students submit a critical research essay and MSc students undertake an independent research project which culminates in a substantial dissertation and oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, practical classes, computer-based teaching, fieldwork, and tutorials. Student performance is assessed through coursework and written examination. The research project is assessed by literature survey, oral presentation and the dissertation.

Careers

Physics-based careers embrace a broad band of areas, e.g. information technology, engineering, finance, research and development, medicine, nanotechnology and photonics. Graduates of MSc programmes at UCL go on to a variety of careers as research associates, postdoctoral fellows, consultants, and systems test engineers.

Top career destinations for this degree:
-Chartered Surveyor, Dunphys
-PhD in Planetary Science, The Open University (OU)

Employability
An MSc qualification from UCL is highly regarded by employers. Students engage in a variety of learning activities, including undertaking their own research projects, which encourages the development of problem-solving skills, technical and quantitative analysis, independent critical thinking and good scientific practice. In addition, teamwork, vision and enthusiasm make physics graduates highly desirable members in all dynamic companies.

Why study this degree at UCL?

UCL Physics & Astronomy is among the leading departments in the UK for graduate study. The curriculum of the Planetary Science MSc draws on a variety of other academic departments within UCL including Space & Climate Physics (Mullard Space Science Laboratory), Earth Sciences, Cell & Developmental Biology and Birkbeck's Department of Earth and Planetary Sciences. The programme thus has a strong interdisciplinary flavour, in line with the ethos of the Centre for Planetary Sciences at UCL/Birkbeck.

The combination of taught courses, tutorials and project work allows prospective students to study a wide variety of topics related to planetary and space environments, such as: planetary interiors, atmospheres and magnetospheres; the impact of the space environment on human physiology and life; and the application of current knowledge to investigations of extrasolar planets, i.e. worlds in other stellar systems.

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What is the 'Master of Architecture' all about?. This Master's programme focusing on "Architecture. Resilient and Sustainable Strategies" explores architecture from a . Read more

What is the 'Master of Architecture' all about?

This Master's programme focusing on "Architecture: Resilient and Sustainable Strategies" explores architecture from a research-by-designand design-by-research perspective. Students are educated and trained in a multicultural and international context. The programme combines an academic approach with creative- experimental approach. It is characterised by a fully-integrated design methodology, providing students with solid skills in the contemporary discipline of architectural design and research.

The Master of Architecture programme is organised at both of the faculty's campuses in Brussels and Ghent, though each campus offers a different orientation:

  • Campus Brussels - Architecture: Urban Projects, Urban Cultures
  • Campus Ghent - Architecture: Resilient and Sustainable Strategies

This is an initial Master's programme and can be followed on a full-time or part-time basis. The programme consists out of a minimum of four semesters.

International

The Faculty of Architecture takes its international dimension as the basis for its own quality assessment. It positions itself squarely within the international field of qualitative academic education. The faculty's international activities are extensive and diversified: student mobility and staff exchange on a European and intercontinental level, internationally oriented programmes for incoming students, international workshops and competitions, international research projects, international internships, development cooperation, etc.

The faculty continues to build on its tradition of academic integration of teaching and research to maintain and enhance its standard of quality and international standing.

The faculty works hard to consolidate and enrich its network of cooperative associations with professionals and universities all over the world and strives to leverage this international network for students' benefit. Its international dimension is a strong catalyst for creativity and an added value to students' future professional career.

Objectives 

"The intended academic quality, is the core of the program (architecture, urban planning), i.e. academically based 'professionalism'.

The broadening of the profile focuses on basic disciplines (architecture and urban planning), however without compromising the appropriate focus on the professional profile of the architect (in multiple forms).

In the profile of master, one should obtain extreme concentration and specificity (however, no specialisation).

On the one hand, the master focuses on the content and area-specific level of the bachelor phase, and on the other hand on the acquirement of access to the professional or doctoral field (advanced masters, PhD,...).

The core competences of the master are:

  • the intellectual development and broadening of the competences acquired in the bachelor;
  • a research attitude (for solutions)
  • the specific, disciplinary knowledge (architecture, urban planning)
  • the interdisciplinary skills (also as to recognize the limits of the own scientific discipline).

The master program should guarantee the acquirement of scientific depth. The offered frontier disciplines focus on the current state of research and development within the competence field. The technical qualification to be acquired, focuses on the high quality problem solving of complex tasks.

Curriculum framework campus Ghent: Architecture: Resilient and Sustainable Strategies

At our campus in Ghent, the International Master of Science in Architecture is concerned with the current theory and practice of architecture and sustainability.

The Brundtland report (United Nations, 1987) defines sustainable development as 'development which meets the needs of the present without compromising the ability of future generations to meet their own needs'. The United Nations in 2005 referred to the 'interdependent and mutually reinforcing pillars' of sustainable development as economic development, social development and environmental protection.

Translating these three pillars for sustainable architecture, they would entail: providing access to high quality and healthy living and working environments for all, finding ways to create socially sustainable environments at different scales and a wise use of natural resources. Technical considerations, together with more conceptual or strategic issues, are dealt with in this two-year program about architecture and sustainability.

Central in the program of the International Master of Science in Architecture is a critical reflection about architecture and its social, cultural or environmental role for society.

Based on a highly interdisciplinary learning process of integrated research and 'research by design', students are expected to determine a theoretical stance on current issues with particular emphasis on how aspects of sustainability, universal design, urban ecology and energy-efficient technologies may contribute to the development of more sustainable human settlements.

Apart from the theoretical courses, the program includes 3 design studios (during one semester) and 1 final master dissertation studio (during one year). Each semester, there is a focus on a specific attitude, related to the main theme of the programme. All studios are organised through a pool of studio groups (Academic Design Offices and Design Studios) where the teaching staff provides a series of specific themes, methods and intervention areas for the students to develop an architectural project:

Themes sem 1

  • social sustainability and architecture
  • modest heritage and suitability
  • urban emergent processes
  • architectural concept, materiality and detail

Themes sem 2 (specific focus on the city of Ghent)

  • architectural concept, materiality and detail
  • limited resources, re-use and integration
  • urban emergent processes

Themes sem 3

  • architectural materiality and detail

Themes sem 4

  • social sustainability and architecture
  • modest heritage and suitability
  • urban emergent processes
  • architectural concept, materiality and detail
  • limited resources, re-use and integration

Career perspectives

Graduates are trained to lead multidisciplinary teams of engineers, interior architects, landscape architects and artists. In addition to working as independent (self-employed) architects, our graduates also work as professionals in government agencies and international design firms. Some graduates go on to roles as researchers serving local or international governance bodies, NGO's or other institutes.



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A physics programme that covers the inner workings of the universe from the smallest to the largest scale. Although Particle Physics and Astrophysics act on a completely different scale, they both use the laws of physics to study the universe. Read more

Master's specialisation in Particle and Astrophysics

A physics programme that covers the inner workings of the universe from the smallest to the largest scale
Although Particle Physics and Astrophysics act on a completely different scale, they both use the laws of physics to study the universe. In this Master’s specialisation you’ll dive into these extreme worlds and unravel questions like: What did our universe look like in the earliest stages of its existence? What are the most elementary particles that the universe consists of? And how will it evolve?
If you are fascinated by the extreme densities, gravities, and magnetic fields that can be found only in space, or by the formation, evolution, and composition of astrophysical objects, you can focus on the Astrophysics branch within this specialisation. Would you rather study particle interactions and take part in the search for new particles – for example during an internship at CERN - then you can choose a programme full of High Energy Physics. And for students with a major interest in the theories and predictions underlying all experimental work, we offer an extensive programme in mathematical or theoretical physics.
Whatever direction you choose, you’ll learn to solve complex problems and think in an abstract way. This means that you’ll be highly appealing to employers in academia and business. Previous students have, for example, found jobs at Shell, ASML, Philips and space research institute SRON.

See the website http://www.ru.nl/masters/physicsandastronomy/particle

Why study Particle and Astrophysics at Radboud University?

- This Master’s specialisation provides you with a thorough background in High Energy Physics, Astrophysics, and Mathematical Physics and the interface between them.
- Apart from the mandatory programme, there’s plenty of room to adapt the programme to your specific interests.
- The programme offers the opportunity to perform theoretical or experimental research.
- During this specialisation it is possible to participate in large-scale research projects, like the Large Hadron Collider at CERN or the LOFAR telescope.

Career prospects

This Master’s specialisation is an excellent preparation for a career in research, either at a university, at an institute (think of ESA and CERN) or at a company. However, many of our students end up in other business or government positions as well. Whatever job you aspire, you can certainly make use of the fact that you have learned:
- Thinking in an abstract way
- Solving complex problems
- Using statistics
- Computer programming
- Giving presentations

Some of our alumni now work as:
- National project manager at EU Universe Awareness
- Actuarial trainee at Talent & Pro
- Associate Private Equity at HAL Investments
- Consultant at Accenture
- ECO Operations Manager at Ofgem
- Scientist at SRON Netherlands Institute for Space Research
- Technology strategy Manager at Accenture

Working at a company

Other previous students have found jobs at for example:
- Shell
- KNMI
- Liander
- NXP
- ASML
- Philips
- McKinsey
- DSM
- Solvay
- Unilever
- AkzoNobel

Researchers in the field of Particle and Astrophysics develop advanced detector techniques that are often also useful for other applications. This resulted in numerous spin-off companies in for example medical equipment and detectors for industrial processes:
- Medipix
- Amsterdam Scientific Instruments
- Omics2Image
- InnoSeis

PhD positions

At Radboud University, there are typically a few PhD positions per year available in the field of Particle and Astrophysics. Many of our students attained a PhD position, not just at Radboud University, but at universities all over the world.

Our approach to this field

In the Particle and Astrophysics specialisation, you’ll discover both the largest and the smallest scales in the universe. Apart from Astrophysics and High Energy Physics, this specialisation is also aimed at the interface between them: experiments and theory related to the Big Bang, general relativity, dark matter, etc. As all relevant research departments are present at Radboud University – and closely work together – you’re free to choose any focus within this specialisation. For example:

- High energy physics
You’ll dive into particle physics and answer questions about the most fundamental building blocks of matter: leptons and quarks. The goal is to understand particle interactions and look for signs of physics beyond the standard model by confronting theoretical predictions with experimental observations.

- Astrophysics
The Astrophysics department concentrates on the physics of compact objects, such as neutron stars and black holes, and the environments in which they occur. This includes understanding the formation and evolution of galaxies. While galaxies may contain of up to a hundred billion stars, most of their mass actually appears to be in the form of unseen ‘dark matter’, whose nature remains one of the greatest mysteries of modern physics.

- Mathematical physics
Research often starts with predictions, based on mathematical models. That’s why we’ll provide you with a theoretical background, including topics such as the properties of our space-time, quantum gravity and noncommutative geometry.

- Observations and theory
The Universe is an excellent laboratory: it tells us how the physical laws work under conditions of ultra-high temperature, pressure, magnetic fields, and gravity. In this specialisation you’ll learn how to decode that information, making use of advanced telescopes and observatories. Moreover, we’ll provide you with a thorough theoretical background in particle and astrophysics. After you’ve got acquainted with both methods, you can choose to focus more on theoretical physics or experimental physics.

- Personal approach
If you’re not yet sure what focus within this specialisation would best fit your interests, you can always ask one of the teachers to help you during your Master’s. Based on the courses that you like and your research ambitions, they can provide you with advice about electives and the internship(s).

See the website http://www.ru.nl/masters/physicsandastronomy/particle

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Computer Aided Engineering (CAE) covers the use of computers in all activities from the design to the manufacture of a product. It is at the forefront of information technology and of crucial importance to economies around the world. Read more
Computer Aided Engineering (CAE) covers the use of computers in all activities from the design to the manufacture of a product. It is at the forefront of information technology and of crucial importance to economies around the world. It is a vital part of many global industries including those of automotive, aerospace, oil, defence, finance and health. Computer Aided Engineering systems provide virtual product development environments allowing 3D models to be created, analysed, optimised and stored efficiently; operational and extreme physical conditions can be evaluated, reducing (and sometimes eliminating) the need for prototypes.

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There are two main research groups in the Department, The Sustainable Built Environment Research Group (SBERG) which includes Sustainable Landscapes and AVATAR (Advanced Virtual and Technological Architectural Research) which also includes research in graphic and digital design. Read more
There are two main research groups in the Department, The Sustainable Built Environment Research Group (SBERG) which includes Sustainable Landscapes and AVATAR (Advanced Virtual and Technological Architectural Research) which also includes research in graphic and digital design. Typically, students initially register for the MPhil. After approximately 12 to 18 months, students submit a comprehensive transfer report in order to be considered for transfer to PhD. If the transfer report and viva are accepted, the student is permitted to continue to completion of the PhD.

MPhil/PhD opportunities are available across the range of activities within the Department but generally students should select topics in areas covered by the research areas.

The Department is based in a new state of the art building designed by the award winning architects Heneghan Peng; it is equipped with fourteen rooftop landscapes, cutting edge digital workshops, extensive design studios, a world-class library and two gallery spaces.

Our building is located in the heart of Greenwich, the newest addition to a suite of magnificent buildings that occupy the UNESCO World Heritage site and the location of the Greenwich Prime Meridian.

Recent research project topics include:

- The impact of climate change in the UK on business organisations

- Community resiliance to extreme weather

- The use of sensor technology, artificial intelligence and wireless communications in the assessment of an oil pipeline's maintenance needs

- GIS-based space planning for Ho Chi Minh City

- Sustainable Landscape Planting in the Negev Desert

- Corporate Governance Mechanisms and the Impact on Corporate Performance: Empirical Studies of China's Listed Real Estate Companies

- AVATAR investigates the full range of impacts for emerging and new technologies on architectural designs and encourages a critical mix of cultural, aesthetic and social agendas through design.

The aims of the programme are:

- To achieve a research degree on the basis of a rigorous, organised and fulfilling programme of research study

- To develop high level transferable skills and knowledge that will be in demand by the academic community, business and industry; depending on the nature of the research

- To make a contribution to knowledge, advance business practice, influence policy or set standards in the wider community.

Visit the website http://www2.gre.ac.uk/study/courses/pg/res/arcres

What you'll study

- Sustainable Buildings
- Sustainable Environments
- Sustainable Landscapes
- Design
- Graphic and Digital Design
- AVATAR

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

Students are assessed through a thesis and an oral examination.

Career options

This programme offers students a wide range of career opportunities in industry, government and academia.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/__data/assets/pdf_file/0003/644034/MSc-in-Property-or-Construction-by-Research.pdf

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The MSc Advanced Landscape and Urbanism encourages students to develop inventive and speculative approaches to the design of cities, landscape and territories. Read more
The MSc Advanced Landscape and Urbanism encourages students to develop inventive and speculative approaches to the design of cities, landscape and territories. It promotes distinct design and research methods and the integration of new and innovative technologies to explore the complexity of contemporary cities, including issues of urban growth, climate change, globalisation and social inequality. The programme is designed for students of architecture, landscape architecture, design and related disciplines, who wish to enhance their academic, intellectual and professional skills.

The programme interrogates the growing influence of landscape processes on the design of future cities and environments. It provides a platform from which to rethink approaches to contemporary urban design, to consider extreme environmental events, shifting economic agendas, new forms of public space and the transformations to urban infrastructures. The MSc Advanced Landscape and Urbanism focuses on design studio projects informed by classes in landscape and urbanism theory, design ecologies, future representation and design research methodologies. Details of international events, open lectures and student work can be found on: http://www.thelandscape.org/

Graduates from the MSc Advanced Landscape and Urbanism join or establish leading design practice or continue their design and research ambitions through PhD studies.

The aims of the programme are to:

- Interrogate, and speculate on, the emerging ecologies between people, design, technology and the environment

- Research the conditions of urbanism through the lens of landscape theory and design practice

- Employ advanced design techniques and innovative methodologies through site-based projects.

Visit the website http://www2.gre.ac.uk/study/courses/pg/arc/advlandurb

Architecture and Landscape

We need tools to help us create a built environment that is responsive rather than obstructive to its users and to the world around it. At Greenwich we encourage both students and staff to embrace the interconnectedness of design, construction and building management, of landscape architecture and graphic design, and to constantly look at new ways of exploring these areas.

All architecture programmes focus on the urgent necessity to change our living habits in order to design and build a sustainable urban environment.

The construction management programmes are designed to provide students with a high level of understanding of the design, function, construction and statutory requirements for buildings of all classes, and to prepare them for more advanced employment within the construction industry.

What you'll study

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

Landscape and Urbanism Theory (40 credits)
Advanced Urban Design (40 credits)
Design Ecologies (20 credits)
Design Research Methodologies (20 credits)
Future Representations (20 credits)
Master Project (40 credits)

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

Advanced Urban Design (40 credits)
Design Ecologies (20 credits)
Future Representations (20 credits)

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

Landscape and Urbanism Theory (40 credits)
Design Research Methodologies (20 credits)
Master Project (40 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.

Assessment

Students are assessed through coursework, thesis and design portfolio.

Career options

This programme is suitable for those aiming to develop advanced design skills, for use in landscape, architecture and urban design practice, and for those aiming to enhance their academic skills and/or go on to doctoral study.

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

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