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Full Time MSc Degrees in Nottingham, United Kingdom

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This MSc is a specialist course designed to further your existing knowledge of accounting and finance. It builds on the theory and application of accounting and finance principles and is designed to enable you to become a financial specialist in any business setting, or to pursue further postgraduate study. Read more
This MSc is a specialist course designed to further your existing knowledge of accounting and finance. It builds on the theory and application of accounting and finance principles and is designed to enable you to become a financial specialist in any business setting, or to pursue further postgraduate study.

Those with financial acumen have a key role to play in organisations, and will always be in demand. This course offers you the opportunity to enrich and broaden your understanding and appreciation of important topics within accounting and finance while engaging in current debate on the topics.

This course includes lectures, as well as the opportunity to interact and share your views in smaller groups. Compulsory modules in key areas of accounting have a key focus on quantitative research methods, while a number of optional modules are available so that you can tailor the degree to suit your individual interests and career aspirations.

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University of Nottingham School of Biosciences
Distance from Nottingham: 0 miles
Continuing your professional development is not only a requirement for ongoing registration with the Health and Care Professions Council, but is increasingly recognised as important by government, professional bodies and the public sector. Read more
Continuing your professional development is not only a requirement for ongoing registration with the Health and Care Professions Council, but is increasingly recognised as important by government, professional bodies and the public sector.

Please note: this is not a PG pre-registration course for individuals with a first degree now wanting to train as a dietitian, but a PG post-registration programme suitable as continuing professional development for dietitians and other healthcare professionals. It is not available to international students.

The University of Nottingham has been a recognised provider of the British Dietetic Association's Masters in Advanced Dietetic programme since 2008. These new postgraduate qualifications have been designed to meet the BDA's requirements of both work based learning and research skills.

Practitioners who aspire to become increasingly competent professionals must develop the ability to evaluate current practice critically, both from the wider professional picture and their individual point of view.

These programmes offer a sound foundation for professional development on which to build your future success. Part-time and modular they have been designed to suit your personal and professional situation, whether that is a single module, a postgraduate certificate, diploma or the complete Masters programme.

Funding is available via the Strategic Health Authority's 'Learning Beyond Registration' initiative for free module places (except the 60 credit Research Project) for staff within the East Midlands region.

These programmes have been specially developed by professionals in Nutritional Sciences in the School of Biosciences, one of the University's most successful schools based at the Sutton Bonington Campus. We have a dynamic teaching team and offer the opportunity to learn under the guidance of expert practitioners, educators and researchers.

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This programme will provide a deep understanding of the processing, nature and properties of a broad range of engineering materials. Read more
This programme will provide a deep understanding of the processing, nature and properties of a broad range of engineering materials. Only by studying these can materials be truly designed for purpose. The course integrates materials behavior and materials processing relevant to a wide range of industrial sectors.

The programme produces graduates who are able to think and function in an integrated manner across the areas of materials
science and engineering.

Students will develop:
knowledge and understanding of the basic principles of materials and the necessary background science
understanding of the relationships between the mechanical properties of materials, their microstructure and their processing history
knowledge of recent advances in materials development
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
the ability to understand and apply the theory, method and
practice of materials engineering and design in a wide range of industries
interpersonal, communication and professional skills

Previous research projects have included:
Investigating novel hydrogen storage materials
The development of open cell Ni foams for areoengine parts

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University of Nottingham School of Health Sciences
Distance from Nottingham: 0 miles
A natural progression from your BSc, the Masters Advanced Nursing builds on your skills and specialist knowledge, giving you a deeper understanding and leading to wider career opportunities. Read more
A natural progression from your BSc, the Masters Advanced Nursing builds on your skills and specialist knowledge, giving you a deeper understanding and leading to wider career opportunities.

With nursing in England becoming an all-graduate profession, further study will help you stay ahead. Higher qualifications demonstrate your ambition and aptitude for learning, and many of our MSc students and graduates find they achieve promotion during or soon after their course. In fact, in clinical practice, applicants for senior and advanced nursing posts are increasingly expected to possess, or be working towards, masters-level qualifications. A masters degree is also the entry qualification for a career in teaching.

Taking an Advanced Nursing course is a real investment in your career. The programme’s educational framework has been carefully designed to improve healthcare practice and, ultimately, patient care. Therefore your assignments will be firmly grounded in the realities you face in the workplace, developing skills and knowledge that will lead to practical benefits for you and your team.

You will join students from diverse clinical backgrounds, including acute and community care settings. Many come from the UK, but also Europe and even further afield; all share a common enthusiasm and commitment to advancing their careers – and the profession. Learning from each other, as much as from experienced teachers, you will develop new friendships that will last long after the course.

Alongside the clear career benefits this qualification brings, this challenging course is also hugely rewarding on a personal level and many of our students comment on the enormous sense of satisfaction and achievement in gaining an award at this level.

We also offer a Postgraduate Diploma Advanced Nursing, which has the same taught modules but does not include a dissertation.

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Aerospace is a priority research area for the University, the Faculty of Engineering launched it's Institute for Aerospace Technology in 2010. Read more
Aerospace is a priority research area for the University, the Faculty of Engineering launched it's Institute for Aerospace Technology in 2010. This will drive development of cutting-edge technology in this key research area, with the aim of radically improving all aspects of air transport.

This programme aims to science and engineering graduates from a diversity of backgrounds, with a solid grounding in current aerospace technologies, together with options to develop an emphasis in manufacturing, advanced materials and structures, and power electronic systems.

This programme aims to provide science or engineering graduates from a diversity of backgrounds, with a solid grounding in current aerospace technologies, together with options to develop an emphasis in manufacturing, advanced materials and structures, and power electronic systems.

The MSc comprises of three distinct "aerospace" streams; Aerospace Manufacturing, Aerospace Materials and Structures and Aerospace Power Electronics Systems. Students will choose which stream they wish to study. 60 credits of core compulsary modules will be studied and then a further 60 credits of modules will be taken in the chosen stream.

As part of the MSc students will complete an individual research project which will be undertaken over the summer term.

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University of Nottingham School of Biosciences
Distance from Nottingham: 0 miles
This new vocational course offers the unique opportunity to integrate an in-depth scientific knowledge of animal nutrition with the acquisition of business skills and a detailed operational understanding of the animal feed industries, developed through a series of case studies. Read more
This new vocational course offers the unique opportunity to integrate an in-depth scientific knowledge of animal nutrition with the acquisition of business skills and a detailed operational understanding of the animal feed industries, developed through a series of case studies. This combination will equip you with the knowledge and skills for working in either research or industry.

Key facts

The course has close links with industrial partners, with guest lectures, site-visits and an annual on-campus Nottingham Feed Conference, providing access to the latest developments in the animal feed industry.
The programme is managed by the school’s Division of Animal Sciences, which has an international reputation for research in animal nutrition, development, reproduction and biotechnology. The division also manages a successful undergraduate degree in Animal Sciences.
The school is ranked the no.1 research environment in the UK (for Agriculture, Veterinary and Food Science) in the 2014 REF (Research Excellence Framework). 97% of our work (in the Schools of Biosciences and Veterinary Medicine and Science ) was judged to be of international quality.
Academic staff in the school have links with the University's School of Veterinary Medicine and Science, also based on the Sutton Bonington Campus.
Students have access to the on-campus University Farm and Dairy Centre.

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University of Nottingham School of Biosciences
Distance from Nottingham: 0 miles
This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD. Read more
This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD.

Biomolecular Technology underpins the production of drug delivery systems, the making of healthier food products, the design of health-care products, the making of antisera and vaccines - and even the efficient extraction of oil from the harsh environment of a deep well: these are among the biotechnology processes which depend in fundamental terms on our ability to handle giant molecular complexes of living origin. Furthermore, molecular biologists and chemists are now increasingly able to ‘engineer’ new types of proteins and complexes over and beyond those which 3 billion years of evolution have provided.

Industry needs skilled personnel capable of understanding how these molecules may be used in an industrial context and the processes of gene cloning and protein engineering.

It is taught by the School of Biosciences in conjunction with the University's Schools of Pharmacy, Biomedical Sciences and Clinical Sciences and The School of Biosciences at the University of Leicester. Experts from local and national industry also contribute, ensuring access to the latest developments in the field.

A 3 month industrial placement module offers an exciting opportunity to discover first hand the needs of modern industry and provides advanced training for employment and further academic studies.
By suitable arrangement non-UK students can do this in their normal country of residence.

Applicants should hold first degrees at honours level in any Biological, Chemical or Physical Science subject (e.g. Biochemistry, Chemistry, Pharmacy, Genetics, Food Sciences, Plant Sciences, Physics). Suitably motivated candidates with Engineering or Mathematics degrees will also be considered.

A number of scholarships and European bursaries may be available.

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University of Nottingham School of Biosciences
Distance from Nottingham: 0 miles
The course provides students with the scientific research skills and the basic business knowledge needed to convert scientific discoveries into inventions and commercial products. Read more
The course provides students with the scientific research skills and the basic business knowledge needed to convert scientific discoveries into inventions and commercial products. You will learn how to translate these into a business plan for start-up technologies or innovative processes within biotechnology industries.

You should acquire a combination of essential research and business practical skills in finance, marketing and management which will equip you for career opportunities in the global biotechnology market.

The course is run by the School of Biosciences, in conjunction with the University’s School of Biomedical Sciences and the Business School. The Business School is one of the UK’s leading centres for management education and is globally ranked among the world’s top business schools for the quality of its teaching and research on sustainability and social responsibility.

A series of off-site visits to Institutes and biotechnology companies will provide you with information on the latest technologies and research. You will undertake a Research Project or Management Project in conjunction with a biopharmaceutical or biotechnological company in line with your individual career aspirations.

The 12 months’ course consists of two semesters of taught modules followed by your Research Project. Details of individual modules can be viewed on our web pages. Taught modules include (subject to change):

•Industrial and Biomedical Macromolecules
•Physical Chemistry of Molecules
•Antibody Biotechnology
•Polysaccharide and Drug Delivery Biotechnology
•Project Management
•Finance and Accounting
•Marketing for Entrepreneurs


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The programme consists of six modules which enables students to study for the MSc Applied Ergonomics by Distance Learning from the comfort of their own home at a time to suit you, without coming to the University if they do not wish to do so. Read more
The programme consists of six modules which enables students to study for the MSc Applied Ergonomics by Distance Learning from the comfort of their own home at a time to suit you, without coming to the University if they do not wish to do so.

The emphasis of the Applied Ergonomics by Distance Learning Postgraduate degree programme is on improving awareness of the critical contribution ergonomics has in organisations and society and to provide the necessary skills to address these issues in the design of products, jobs, workplaces and systems. It also familiarises students with the need for end user focus in the design of computing and communication systems and information technology, including advanced virtual and other technologies of the future.

The programme is designed to give honours graduates the human factors/ergonomics expertise required in a wide range of manufacturing, service and process industries, enforcement agencies such as Local Authorities and the health service, as well as a grounding for a career in research. Students may already be working in the industry and want to enhance their knowledge or may be looking to gain skills that would enable them to join the industry.

On graduating with an MSc, which can be achieved in 2 to 4 years, students will have the necessary skills and knowledge to pursue a career in the field of ergonomics. They will also have gained the necessary research skills to undertake further study if they wish.

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University of Nottingham School of Medicine
Distance from Nottingham: 0 miles
The MSc Applied Sport and Exercise Medicine can be taken full-time over one year or part-time over two to four years. As an MSc student, you will study a series of core modules in sports and exercise medicine. Read more

Overview

The MSc Applied Sport and Exercise Medicine can be taken full-time over one year or part-time over two to four years

As an MSc student, you will study a series of core modules in sports and exercise medicine. This includes taking an emergency care qualification; studying anatomy with images, in the dissecting room and on each other; learning about physical activity recommendations for special groups (e.g. people with diabetes); as well as comprehensive research methods tutorials, in addition to the compulsory project and dissertation module.

This is an exciting opportunity to undertake research on a subject related to sports and exercise medicine or exercise physiology under the supervision of an appropriate member of academic staff. There are also a wide variety of optional modules, so you can tailor this degree to your requirements.

Modules

MSc students take a combination of compulsory and optional modules to gain 180 credits.

Compulsory modules (totalling 140 credits)

Module A34614 - Sports Injury Anatomy (20 credits)

Module A34616 - Physical Activity in Health and Disease (20 credits)

Module A34621 - Research Methods (10 credits)

Module A34631 - Project and Dissertation: Sports and Exercise Medicine (60 credits)

Module A34634 - Physical Activity Epidemiology (10 credits)

Module A34635 - Sport and Exercise Nutrition (10 credits)

Module A34636 - Fundamentals in Statistics (10 credits)

Students can also choose modules totalling a further 40 credits from a selection of optional modules. Full details can be found online.

The modules we offer are inspired by the research interests of our staff and as a result may change for reasons of, for example, research developments or legislation changes. This list is an example of typical modules we offer, not a definitive list.

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University of Nottingham School of Medicine
Distance from Nottingham: 0 miles
This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. Read more

Overview

This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. This course provides an avenue for both scientists and clinicians to enter the field of reproductive biology; and for those already familiar with this area, an opportunity to gain greater appreciation of the biological processes of mammalian reproduction that are relevant to the manipulation of fertility and the treatment of reproductive disease.

The course was established in 1993, making it the longest running taught masters in the UK providing full-time training in human ART, and aims to furnish graduates with the theoretical and practical training within this highly specialised discipline. Designed to broaden knowledge of the underlying scientific principles and to enhance appreciation of the clinical management of infertility, it aims to encourage independent thought and a research oriented approach to the practice of assisted conception.

A major feature and strength of this course is that the primary components, in terms of reproductive physiology, research methods, clinical embryology, and clinical medicine are all provided by experts who are highly active within their own areas of expertise, giving the information provided to the students an immediacy and relevance that it would be impossible to achieve using a more static and established teaching base.

The course is studied over a period of one year, full time, and has three basic components:
1) Theoretical and Practical Training modules (95 Credits)
2) Development of Research and Presentation skills and Observation (25 Credits)
3) Research project & dissertation (60 Credits)

Delivery method

The taught component of the course is delivered in the Autumn and Spring semesters through a combination of lectures, practicals, seminars, tutorials and other associated activities, such as journal club and guest speakers.

Approximately one third of the total course duration is dedicated to the construction, preparation and investigation of a laboratory-based research project of up to 15,000 words. This is written up in thesis presentation form.

IMPORTANT NOTE

ALL applicants, especially those from a predominantly clinical background, please note:

• This is a laboratory-based, science degree course and not a clinically based infertility treatment course.
• There is no direct contact with patients or tuition in gynaecological/surgical procedures.
• That although training is given in all laboratory aspects of assisted conception (including semen evaluation, IVF, IVM, ICSI and cryopreservation) in the time available, this training can only represent an introduction to these techniques and those graduates wishing to become clinical embryologists will need further training to become competent in those highly specialised techniques.

Course aims

• To encourage independent thought and a research oriented approach to the practice of assisted conception
• To provide theoretical and practical training in Assisted Reproduction Technology
• To broaden the students knowledge of the underlying scientific basis of ART and clinical management of infertility
• To equip graduates with the ability to pursue a career in assisted conception (e.g. clinical embryology, infertility treatment) and/or research in reproductive biology

Course objectives

• To provide successful candidates with a career path within one of the many disciplines that encompass modern assisted reproduction technology and to this end, students are taught by and given the opportunity to interact with, both full-time reproductive biologists and the consultants, clinical embryologists, andrologists and counsellors.

Requirements

Candidates must normally be graduates of an approved university, or other institution of higher education in medicine, nursing or the biological sciences. Normally the minimum requirement for entry is a 2(ii) degree or equivalent, although candidates with a third class degree may be considered at the Course Directors discretion in special circumstances. If you are not sure if you qualify, please do not hesitate to contact the Course Administrator

Candidates will be required to follow a prescribed course of study for one academic year (two 15-week semesters and summer period)

All candidates will be required to undertake a theoretical and practical training programme. Candidates will also be required to submit a dissertation of not more that 15,000 words on a topic relating to an aspect of Assisted Reproduction agreed by the Director of the Course.

English Language Requirements

International students whose first language is not English must achieve an appropriate level in an approved test in English before they can register.

The requirements for this course are above the University minimum standards and are as follows:

• IELTS minimum score of 6.5 (with no less than 6.0 in any element)
or
• TOEFL iBT 87 (minimum 19 in listening, 20 in speaking and 21 in reading and writing)

Examinations should be taken within two years of registering to study at Nottingham. Completion of a previous degree studied in the English language does not exempt applicants from requiring one of the above English qualifications, unless the degree was taken in a country where the first language is English.

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We offer several unique banking courses which are at the forefront of banking and finance education. This course is taught by the UK's leading experts in banking, finance, economics, and risk who are all members of the Business School's Centre for Risk, Banking and Financial Services. Read more
We offer several unique banking courses which are at the forefront of banking and finance education.

This course is taught by the UK's leading experts in banking, finance, economics, and risk who are all members of the Business School's Centre for Risk, Banking and Financial Services.

The MSc Banking and Finance course is accredited by the Chartered Banker Institute (CBI), meaning that you will also graduate with the gold standard Chartered Banker Diploma. This is the highest award available in the banking world which is why we are proud to be the only Business School to offer this kind of dual qualification degree.

This course is for you if your chosen career path is an academic/researcher in banking and finance, or a banking practitioner in domestic, international and central world banks - in the finance/financial markets department before moving into a high level managerial position.

As an undergraduate you studied accountancy, economics and/or finance, or you are currently working in the financial sector and are keen to sharpen your banking skills to pursue your ideal career.

If you'd prefer to focus on banking risk or banking and economics please consider our MSc Banking and Risk or MSc Banking and Managerial Economics courses.

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The course aims to provide science or engineering graduates from a diversity of backgrounds with a solid grounding in modern bioengineering technologies, together with options to develop an emphasis in biomechanics and biomaterials, bioimaging and biosensing and digital modelling of various human systems which will prepare students for a career in an industrial, clinical or research environment. Read more
The course aims to provide science or engineering graduates from a diversity of backgrounds with a solid grounding in modern bioengineering technologies, together with options to develop an emphasis in biomechanics and biomaterials, bioimaging and biosensing and digital modelling of various human systems which will prepare students for a career in an industrial, clinical or research environment.

This course is one of a suite of four closely related bioengineering masters courses that comprise of a common core with the ability to focus on specific aspects of bioengineering.
The course has a broader scope than the three related courses, allowing students to select modules related to biomaterials, biomechanics, imaging and sensing and digital modelling.

This course may be appropriate for students who have yet to decide which area of bioengineering they wish to focus on. The principles of the course are highly relevant to the established medical device sector, the biotechnology and the emerging regenerative medicine industry.

This multidisciplinary masters covers practical and theoretical aspects of bioengineering, including:
-cell-biomaterial surface interactions
-materials characterisation
-functionalisation of surface
-biomechanics and mathematical modelling

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This course aims to provide science or engineering graduates from a diversity of backgrounds with a solid grounding in modern bioengineering technologies, together with a strong emphasis in biomechanics and biomaterials. Read more
This course aims to provide science or engineering graduates from a diversity of backgrounds with a solid grounding in modern bioengineering technologies, together with a strong emphasis in biomechanics and biomaterials. This course will prepare students for a career in an industrial, clinical or research environment, independent learning, and postgraduate research or careers in industry or hospitals.

This course is one of a suite of four closely related bioengineering masters courses that comprise of a common core with the ability to focus on specific aspects of bioengineering.

The course covers material optimisation and engineering of biomedical devices while addressing biological considerations to optimise device performance. Such an approach has a wide application range, incorporating transitory invasive devices to permanent implants for repair, replacement and regenerative treatments. The principles of the course are highly relevant to both the established medical device sector and the emerging regenerative
medicine industry.

This multidisciplinary MSc covers practical and theoretical aspect of bioengineering, including:
-cell-biomaterial surface interactions
-materials characterisation
-functionalisation of surface
-biomechanics and mathematical modelling

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This course provides science or engineering graduates from a diversity of backgrounds with the technical knowledge and skills necessary to develop a career in this rapidly expanding area. Read more
This course provides science or engineering graduates from a diversity of backgrounds with the technical knowledge and skills necessary to develop a career in this rapidly expanding area. The principles of the course are highly relevant to the established medical device sector, the biotechnology industry and the emerging regenerative medicine industry. The course builds on our internationally leading research in biomedical optical imaging and teaching is undertaken by experts in imaging and sensing.

Students will:

-learn about cutting edge imaging and sensing techniques being applied in clinical care, the pharmaceutical and biotechnology sectors
-understand basic structure and function of both cells and humans
-learn how the function of single cells can be probed using electronic and optical methods
-understand how light interacts with tissue and can be used to monitor blood flow and oxygen content
-build an optical device to monitor heart rate
-undertake an individual summer research project.

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