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Masters Degrees (Material Sciences)

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Do you want to affect the future of forests, a key natural resource and the wellspring of biodiversity? Have you ever wondered why forests are called the lungs of the Earth and how climate change relates to forests? Or how trees are grown and processed into products in a sustainable and efficient manner? And how are the economy and forests interrelated?. Read more
Do you want to affect the future of forests, a key natural resource and the wellspring of biodiversity? Have you ever wondered why forests are called the lungs of the Earth and how climate change relates to forests? Or how trees are grown and processed into products in a sustainable and efficient manner? And how are the economy and forests interrelated?

You can find answers to these questions when you study forest sciences. You will come to view forests not only as a setting for jogging trails or as a source of wood, but rather as a source of versatile renewable resources and as complex ecological systems that are closely connected to their environment. The relationship between humans and nature and between society and natural resources is a strong feature of these studies.

The Master’s Programme in Forest Sciences offers a broad and versatile perspective on forests and their use. The studies focus on and apply knowledge in biology, business economics, environmental sciences, logistics, geoinformatics and information technology. As a graduate in forest sciences you will be a professional in forest ecology, the management and use of forest resources, forest bioeconomy business and policy, with ample career opportunities in Finland and abroad.

Come and study forest sciences at the University of Helsinki, in one of the world’s foremost degree programmes in the field. For more information in Finnish about studies in forest sciences, the field of forestry and its opportunities, see http://www.metsatieteet.fi.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

General studies in the Master’s programme provide you with skills needed for the academic world and the labour market. In advanced studies, you focus on field-specific issues and develop your professional knowledge when writing your Master’s thesis and completing courses in your field of specialisation. In addition, the studies include elective courses that allow you to diversify and deepen your knowledge.

The Master's Programme in Forest Sciences comprises three study tracks: forest ecology, the management and use of forest resources and forest bioeconomy business and policy. These study tracks include a total of 12 fields of specialisation.

The specialisations in forest ecology focus on various types of forest and peatland ecosystems and their exploitation. Topical issues include climate change, the prevention of damage to forests caused by insects and fungi, the control of game populations, and problems related to the exploitation of tropical forests.

The specialisations in the management and use of forest resources examine the planning of forest use and the relevant collection of information, forest inventory models, wood harvesting and logistics as well as the processing of wood into bioeconomy products. Topical issues include the application of new remote sensing methods in the planning of forest resource management, the combination of different values and targets in forestry and bioeconomy, various models of silviculture, increased efficiency in logging and transportation, and generating added value in all areas of biorefining.

Studies in the business economics of forest bioeconomy are based on the sustainable use of a renewable natural resource and on the development of responsible business activities in a global environment. The focus of studies is on the globalisation of forest-based industry and business and its structural redevelopment into the bioeconomy. You will become familiar with forest-based issues of the bioeconomy in production, marketing and policy as part of the global operating environment.

Selection of the Major

Graduates from the Bachelor’s Programme in Forest Sciences at the University of Helsinki can continue their studies in the Master's Programme in Forest Sciences. There is an application process for graduates from other Bachelor’s programmes, from universities of applied sciences, and for international applicants.

In the application process, you are selected for the Master’s Programme in Forest Sciences. Upon admission you must select one of the three study tracks, and you must select your specialisation by the second year of your Master’s studies.

Study tracks, specialisations and examples of topics covered by them:
Forest Ecology
-The management and restoration of forest ecosystems: the sustainable and multitargeted use of forest, the use of peat.
-Forest soil science: the biogeochemistry and hydrology of forest soil, soil and root ecology.
-Forest pathology and mycology: the microbiology and epidemiology of forests.
-Forest zoology: the biology and ecology of forest insects, the ecology of forest pests.
-Wildlife management: game populations and society, the planning of game husbandry, mammal ecology.
-The ecology, management and use of tropical forests: methods of tropical forestry, agroforestry.

Management and Use of Forest Resources
-Forest resource management: the collection and use of forest-related information in decision-making, laser scanning, remote sensing, forest inventory.
-Forest technology and logistics: the management of forest products, terramechanics, forest bioenergy.
-Wood technology: wood science and wood as raw material, laboratories in the forest industry, the structure and properties of wood raw material.

Forest Bioeconomy Business and Policy
-Marketing and management in the forest industry: strategic management and marketing, responsibility in forestry, customer orientation, innovations.
-Forest economics: business economics of units within forest bioeconomy, economics of silviculture, forest investment and the economic impact of environmental targets.
-International forest policy: global processes and trends impacting the forest sector from the perspective of individuals, communities and nations.

Programme Structure

The Bachelor’s Programme in Forest Sciences includes two study tracks: forest ecology and the use of forest resources, and forest economics and marketing. The Master's Programme in Forest Sciences comprises three study tracks: forest ecology, the management and use of forest resources, and business economics and policies of forest bioeconomy. These study tracks include a total of 12 specialisations (see specialisations above). Upon completing the Master's Programme in Forest Sciences you will be eligible to apply for the Doctoral Programme in Sustainable Use of Renewable Natural Resources.

Career Prospects

A degree in forestry offers extensive and fairly unique professional competence on a global scale on forest and peatland ecosystems, forest management and use, forest conservation, the business economics and policies of forest bioeconomy as well as the collection, management and use of forest-related information. For more information in Finnish on the available career opportunities, see http://www.metsatieteet.fi

Internationalization

Studies in forestry offer ample opportunities for international activities. For example, you can complete your practical training or collect material for your Master’s thesis abroad. Most courses in the Master’s programme are in English, and several international students participate. You can also serve as a tutor for international exchange students and establish contacts and networks in this way. Another example of international activities is the Helsinki Summer School, which offers intensive courses on topical issues and brings together students from as many as 60 countries.

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Medicine and Life Sciences at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Medicine and Life Sciences at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MRes in Medicine and Life Sciences is a one year full time programme, which provides an ideal opportunity and environment in which to gain practical training in Research Methods and to join a thriving research team within Swansea University College of Medicine. The Medicine and Life Sciences course has been developed with an emphasis on providing students with a research-oriented approach to their learning. Students are able to tailor their studies towards a career in one of the College’s internationally recognised research themes:

– Biomarkers and Genes,

– Devices,

– Microbes and Immunity,

– Patient & Population Health and Informatics.

Key Features of MRes in Medicine and Life Sciences

The Medicine and Life Sciences programme is committed to supporting the development of evidence within the areas of Health, Medicine and Life Science through the training of researchers whose findings will directly inform their own understanding and that of others. The ethos of this programme is to produce graduates with the research skill and knowledge to become effective researchers, who will contribute to the body of knowledge within their chosen area of interest that will have an impact upon the health and well-being of all.

- The advantage of a MRes over other formats is that it provides a structured yet in-depth approach, taking the taught component of FHEQ Level 7 teaching as a framework for conducting research on the candidates own practice.

- Innovative and integrated curriculum that reflects the various aspects of the research process.

- Multidisciplinary teaching team with vast experience and expertise in conducting high quality research.

- Research informed teaching.

- Teaching is supported by online learning and support.

-Flexibility for you to gain specialist knowledge.

- A one year full-time taught masters programme designed to develop the essential skills and knowledge required for a successful research career.

- This course is also available for two years part-time study.

- The opportunity to conduct an individual research project with an interdisciplinary team within a supportive environment.

- Students will be assigned a research-active supervisory team

The aim of the MRes in Medicine and Life Sciences is to provide students with a broad research training to prepare them for a research career in Medical and Life Science research with emphasis on: Biomarkers & Genes, Devices, Microbes & Immunity, and Patient & Population Health and Informatics. The course has been developed to enable graduates to pursue a variety of research careers in Medical and Life Sciences. The programme comprises both taught and research elements.

By the end of the Medicine and Life Sciences programme students will have:

Developed necessary skills to critically interpret and evaluate research evidence; Gained experience the in analysis and interpretation of research data; Advanced knowledge at the forefront of Medical and Life Science research, with the ability to integrate the theoretical and practical elements of research training; Developed the ability to conceptualise, design and implement a research project for the generation of new evidence that informs Health, Medicine and Life Science; Developed practical research skills by working with an interdisciplinary research team; The ability to confidently communicate research ideas and conclusions clearly and effectively to specialist and non-specialist audiences; Acquired transferable skills which enhance your employability and future research career.

Modules

Modules on the Medicine and Life Sciences course may include:

PMRM01 Critical Appraisal and Evaluation

PMRM02 Data Analysis for Health and Medical Sciences

PMRM03 Research Leadership and Project Management OR any topic specific FHEQ Level 7 module from the College of Medicine ’s portfolio

Mode of delivery:

The 60 credits of the taught element will be delivered face-to-face, combining formal lecturing, seminars, and group work in addition to tutor-led practical classes. The remaining 120 credits for the research element will be available as distance learning either off or on-site. Irrespective of the location for conducting the research project, students will supported through monthly online (Skype)/or face-to-face supervisory meetings.

Course Structure

Students must complete 3 modules of 20 credits each and produce a 120 credits thesis on a research project aligned to one the College’s research theme. Each taught module of the programme requires a short period of attendance that is augmented by preparatory and reflective material supplied via the course website before and after attendance.

The Medicine and Life Sciences programme is designed in two phases:

Phase 1 – Training and Application (October – January; 60 credits)

Taught modules in Research Methods and their application to Medicine and Life Science. Personalised education and training relevant to student’s research interests. Identification of research questions and how they might be addressed.Focused on students existing knowledge and research skills.

Phase 2 – Research Project (February – September; 120 credits)

The project is selected by the student in combination with an academic supervisory team. Focussed on one of the College’s four main research themes: Biomarkers and Genes, Devices, Microbes and Immunity, and Patient & Population Health and Informatics. At the end of Part 2 students submit a 40,000 word thesis worth 120 credits leading to the award of Master of Research in Medicine and Life Science.

Attendance Pattern

Students are required to attend the University for 1 week (5 consecutive days) for each module in Phase One. Attendance during Phase Two is negotiated with the supervisor.

You are also encouraged to attend the Postgraduate Taught Induction Event during the induction week and any programme associated seminars, together with Postgraduate research events.



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The aim of the MSc in Pharmaceutical Sciences programme is to provide an academically challenging and vocationally relevant education and training in pharmaceutical sciences, both theoretical and practical. Read more
The aim of the MSc in Pharmaceutical Sciences programme is to provide an academically challenging and vocationally relevant education and training in pharmaceutical sciences, both theoretical and practical. Students will acquire an up-to-date knowledge and understanding of the subject, and achieve learning outcomes that enable them to be able to appreciate and apply acquired knowledge, skills and technological understanding primarily for the benefit of the pharmaceutical and related industrial sectors in Northern Ireland, Republic of Ireland and Great Britain.

Visit the website: https://www.ulster.ac.uk/course/msc-pharmaceutical-sciences-ft-el

Course detail

This course is designed to provide an up-to-date knowledge and understanding of core areas of pharmaceutical sciences, including drug discovery, development, formulation and delivery, quality assurance and evaluation of drugs, analysis of medicines and medicinal natural products and pharmaceutical instrumental methods.

The course increases the awareness of ethical issues and scientific integrity in the pharmaceutical sciences. It will provide you with the chance of specialisation in one of the core specialisms of pharmaceutical sciences through elective modules.

The course is fully online for the taught modules but attendance at the Coleraine campus is required for the MSc Research Project.

- Purpose -

As an MSc student you will learn how to formulate hypotheses, design and conduct a research project, analyse research data, and report results of research to peers.

- Teaching and learning assessment -

The content will be taught through a combination of lecture material and online discussions/tutorials, all of which will be supported online by eTutors and by on-campus staff. Self-directed and independent learning will also be encouraged and supported throughout the module.

Assessment is 100% coursework

Career options

This postgraduate programme is tailor-made to meet the demands of employers in the pharmaceutical industry sectors. It is suitable for those who wish to follow careers in pharmaceutical and related industries and also as academics in various universities to enhance and promote education in the pharmaceutical sciences area. As the proposed programme will have significant amounts of research elements, it is assumed that a number of postgraduate students from this programme may choose further postgraduate research studies such as a PhD.

How to apply: https://www.ulster.ac.uk/apply/how-to-apply#pg

Why Choose Ulster University ?

1. Over 92% of our graduates are in work or further study six months after graduation.
2. We are a top UK university for providing courses with a period of work placement.
3. Our teaching and the learning experience we deliver are rated at the highest level by the Quality Assurance Agency.
4. We recruit international students from more than 100 different countries.
5. More than 4,000 students from over 50 countries have successfully completed eLearning courses at Ulster University.

Flexible payment

To help spread the cost of your studies, tuition fees can be paid back in monthly instalments while you learn. If you study for a one-year, full-time master’s, you can pay your fees up-front, in one lump sum, or in either five* or ten* equal monthly payments. If you study for a master’s on a part-time basis (e.g. over three years), you can pay each year’s fees up-front or in five or ten equal monthly payments each year. This flexibility allows you to spread the payment of your fees over each academic year. Find out more by visiting https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

Scholarships

A comprehensive range of financial scholarships, awards and prizes are available to undergraduate, postgraduate and research students. Scholarships recognise the many ways in which our students are outstanding in their subject. Individuals may be able to apply directly or may automatically be nominated for awards. Visit the website: https://www.ulster.ac.uk/apply/fees-and-finance/scholarships

English Language Tuition

CELT offers courses and consultations in English language and study skills to Ulster University students of all subjects, levels and nationalities. Students and researchers for whom English is an additional language can access free CELT support throughout the academic year: https://www.ulster.ac.uk/international/english-language-support

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The MSc Psychological Sciences conversion course provides a post-graduate qualification enabling students from a range of backgrounds to gain Graduate Basis for Chartered Membership in Psychology of the British Psychological Society (BPS). Read more

About the course

The MSc Psychological Sciences conversion course provides a post-graduate qualification enabling students from a range of backgrounds to gain Graduate Basis for Chartered Membership in Psychology of the British Psychological Society (BPS).

Moreover, the conversion course provides a sound knowledge of the diverse approaches to the study of behaviour encompassed within the core areas of psychology. Finally, the course emphasises the development of transferable knowledge, analytic expertise and research skills, which will be useful across the diverse areas of employment that attract psychology graduates and as a basis for further advanced study within the discipline (e.g. PhD, ClinPsyD, DEdPsy).

Aims

Psychology is defined as the study of mind and behaviour. Psychology is simultaneously a biological science and a social science, providing an exceptionally broad range of conceptual perspectives and empirical skills that will enable students to compete effectively in the workforce upon graduation.

The programme aims to provide students with:

Coverage of all of the requirements for Graduate Basis for Chartered Membership in Psychology within the British Psychological Society (BPS).

A comprehensive understanding, and critical awareness, of how the theories, methods, and research findings of psychology draw upon and contribute to the natural sciences and the social sciences alike.

A comprehensive and systematic understanding of knowledge, and a critical awareness of current issues relating to important concepts, theoretical issues, research findings, historical issues, recent advances, and research methods in psychology.

Comprehensive knowledge and systematic understanding of relevant concepts, theoretical issues, research findings, recent advances, and research methods in biological psychology, cognitive psychology, developmental psychology, individual differences, and social psychology that are critical for research in psychology.

The opportunity to acquire comprehensive knowledge and systematic understanding of a particular topic in psychology and to conduct an original empirical research project in that area.

The opportunity to acquire important transferable, advanced research skills (e.g. research design, data analysis, report preparation).

Course Content

Compulsory modules:

Conceptual and Historical Issues in Psychology
Developmental Psychology
Individual Differences
Social Psychology
Statistics in Psychology
Dissertation
Biological Psychology
Cognitive Psychology
Research Methods in Psychology
Psychology Research Methods in Practice
Research Methods
Biological and Cognitive Psychology

Typical Dissertations

The dissertation is an empirical report (maximum 12,000 words) that enables students to:
Integrate elements of their learning from different parts of the programme
Demonstrate their accumulated knowledge and systematic understanding of a topic
Show an ability to interpret primary source material
Develop an innovative approach to the subject
Work independently of others, consistent with BPS guidelines.

Teaching

Lectures and seminars provide students with in-depth knowledge of historical and contemporary perspectives in psychology.

Formative and summative essays provide reflection on historical and contemporary perspectives in psychology.

Statistics assignments, written research methods tests and laboratory reports will ensure proficiency in analytical skills - required to design research and interpret results.

Statistics assignment and lab reports will provide critical evaluation of the results of empirical research in psychology.

Formative summative essays, exams, and the dissertation will develop effective and critical written communication skills.

Individual meetings between students and dissertation supervisors will enable students to:

(a) Acquire knowledge concerning major theories and results of empirical studies that are relevant to the dissertation topic (including an understanding of the larger, real-world context within which the dissertation topic can be located); and

(b) Develop, analyse, and interpret theory-derived, testable hypotheses (and, perhaps, research questions) concerning links among the constructs to be studied in the dissertation.

Effective and critical written communication will be achieved via formative summative essays, exams, and the dissertation.

Assessment

Coursework essays – demonstration of systematic understanding, critical analysis, and written communication skills.

Examinations – demonstration of comprehensive understanding and written communication skills.

Quantitative reports – ability to analyse and interpret empirical evidence.

Oral presentations – demonstration of knowledge and understanding, critical analysis and oral communication skills.

Dissertation – ability to plan, critically review, execute and communicate an advanced piece of research.

Deadlines are distributed through the year, allowing time for constructive feedback.

Special Features

The MSc Psychological Sciences conversion course will provide a Graduate Basis for Chartered Membership (GBC) in Psychology, as conferred by the British Psychological Society (BPS). This is an entry requirement for all postgraduate training programmes leading to chartered status and the vast majority of postgraduate programmes accredited by the Health and Care Professions Council (HCPC) for registration as a practitioner psychologist.

There is a focus during the programme on developing students' sound knowledge of research methods and statistics - highly desirable skills in many areas of potential employment and so fundamental to the value added by the degree.

A wide range of options are available for students to pursue their own particular research interests (culminating in the dissertation) within the discipline.

Accreditation

BSc Psychology courses accredited by The British Psychological Society
The BSc Psychological Sciences programme at Brunel is accredited by The British Psychological Society.

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The Department of Health has introduced a new career pathway for Healthcare Scientists. This includes clinical science training to provide an appropriately trained workforce to work in the NHS. Read more
The Department of Health has introduced a new career pathway for Healthcare Scientists. This includes clinical science training to provide an appropriately trained workforce to work in the NHS.

DBS & Fitness to Practise

Students enrolling onto certain programmes within the School of Life and Health Sciences at Aston University will be required to undertake an Enhanced Level Disclosure and Barring Service check. Also in line with national requirements for programmes leading to a health professional qualification, a number of degree programmes in the School of Life and Health Science are subject to Fitness to Practise Regulations.

Course Outline & Modules

The Department of Health has introduced a new career pathway for Healthcare Scientists. This includes clinical science training to provide an appropriately trained workforce to work in the NHS. This requires the education and training of practitioners in the division of neurosensory science. This division is made up of 3 pathways:
-Audiology
-Neurophysiology
-Ophthalmic & Vision Sciences

Students undertake common learning throughout the programme but also have specialist topics in year two and three. Students are employed within NHS Departments and released to undertake academic study.

First year modules:
-NS1HS1 Introduction to Healthcare Science (15 credits)
-NS1PP1 Professional Practice (15 credits)
-NS1NS1 Introduction to Neurosensory Sciences (15 credits)
-NS1CS1 Clinical Science (15 credits)

Second year modules:
-NS2RM1 Research Methods (10 credits)
-NS2EB1 Evidence Based Practice (10 credits)
-NS2RP1 Research Project (20 credits)

Audiology pathway
-NS2AR1 Adult Rehabilitation (20 credits)

Vision Science pathway
-NS2VS1 Ophthalmic & Vision Science (20 credits)

Neurophysiology pathway
-NS2NE1 Evoked Potentials (20 credits)

Third year module:
Neurophysiology pathway
-Neurophysiology Practice (30 credits)

Learning, teaching & Assesment

The majority of the teaching and learning material is delivered via the virtual learning environment (Blackboard 9). Students are provided with a study guide for each module which ensures they are aware of what material needs covering when. The first year is mostly assessed via coursework so students are able to benchmark their abilities early on and to develop their skills in managing their learning.

In the second and third years of the programme students undertake a research project with an associated research methods module to develop their skills in this area.

Students are on campus for short periods each term when they have the opportunity to participate in group activities, tutorials, skills laboratories and seminars.

Professional accreditation

The programme is accredited by the Department of Health via the Modernising Scientific Careers programme.

Career opportunities

This programme sits within the Department of Health’s vision for the Healthcare Science workforce. The aim is to develop practitioners who can improve the scientific profile within healthcare and who have the requisite skills to enhance both the diagnosis and treatment of patients in the NHS. As such it is predominantly aimed at graduates employed within the Scientist Training Programme. It is also aimed at NHS practitioners within the disciplines who wish to undertake an academic qualification as part of their professional development. Individual modules can be undertaken as part of the School’s flexible credit accumulation system leading to a post-graduate certificate, diploma or masters qualification.

The ageing population means that demand for assessment and treatment services is set to rise substantially over the coming years. Our Graduates will be well placed to enter careers in hospitals, community-based practice and also related research areas. Previous graduates have become advanced practitioners or gone on to lead a section of service.

The programme is designed to formally meet the requirements of the NHS and builds on Aston’s established links and extensive experience of health education.

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Programme description. This postgraduate certificate and diploma is a unique opportunity for students who want to explore aspects of human anatomy through the flexibility of an online distance learning programme. Read more

Programme description

This postgraduate certificate and diploma is a unique opportunity for students who want to explore aspects of human anatomy through the flexibility of an online distance learning programme.

All courses making up the programme use innovative teaching methods to provide students with key transferable skills in addition to a solid foundation of anatomical knowledge.

Our programme in anatomical sciences is delivered entirely online and consequently relies on the use of IT, for example through the use of email, audio visual material, discussion forums and various other interactive resources.

This is a postgraduate qualification for medical, biomedical, allied health professionals and those in holistic practice with an interest in human anatomy. The programme draws upon the highly regarded teaching and research staff within the University.

Our aim is to provide quality course materials to be delivered from our virtual learning environment. Interactive software is being specifically developed for use in this programme alongside the licensed software currently in use for the on campus masters programme in Human Anatomy and our medical degree course.

The programme is designed to introduce and develop student knowledge in the anatomical sciences; in addition it is aimed at renewing and strengthening communication and IT knowledge and skills.

Our online learning system lets you work entirely from your own home location. This will enhance your learning experience and working knowledge while rewarding you with a highly regarded qualification.

Online learning

Our online learning technology is fully interactive, award-winning and enables you to communicate with our highly qualified teaching staff from your own home or working environment.

Our online students not only have access to the University’s excellent resources, but also become part of a supportive online community, bringing together students and tutors from around the world.

Programme structure

The programme normally takes two years.

Year 1: Certificate

Courses include:

  • Fundamental Human Anatomy 1 - including the upper and lower limbs, back and pelvis.
  • Fundamental Human Anatomy 2 - including thorax, abdomen, head and neck.
  • Embryology - human development.
  • Neuroanatomy - nervous system

Year 2: Diploma

You will extend your anatomical knowledge with courses in:

  • Advanced Human Anatomy 1 - more detailed study of anatomy previously examined incorporating anatomical principles.
  • Advanced Human Anatomy 2
  • Histology - microscopic anatomy.
  • Imaging - modalities that are relevant to anatomical sciences.

Each of the four taught courses has a set of modules that are released to students on a weekly basis from our virtual learning environment.

The modules consist of the following structure.

  • A recorded lecture to introduce the topic
  • Interactive content (video/animated/narrative)
  • A set of resource links to course reading – library and research.
  • A discussion board facilitated by a tutor.
  • A set of questions (MCQs) which students can take at the end of each section - these are formative and do not contribute to the final mark.

At the end of each module there is a further set of multiple choice questions which students take; this set of MCQs do contribute to the final mark.

More information on anatomy at the University can be found on our website:

Postgraduate Professional Development

Postgraduate Professional Development (PPD) is aimed at working professionals who want to advance their knowledge through a postgraduate-level course(s), without the time or financial commitment of a full Masters, Postgraduate Diploma or Postgraduate Certificate.

You may take a maximum of 50 credits worth of courses over two years through our PPD scheme. These lead to a University of Edinburgh postgraduate award of academic credit. Alternatively, after one year of taking courses you can choose to transfer your credits and continue on to studying towards a higher award on a Masters, Postgraduate Diploma or Postgraduate Certificate programme. Although PPD courses have various start dates throughout a year you may only start a Masters, Postgraduate Diploma or Postgraduate Certificate programme in the month of September. Any time spent studying PPD will be deducted from the amount of time you will have left to complete a Masters, Postgraduate Diploma or Postgraduate Certificate programme.

Flexible study

The programme also offers the opportunity to take a Postgraduate Certificate (60 credits), either part-time over 9 months or on an intermittent basis over 2 years; or a Postgraduate Diploma (120 credits), either part-time over 21 months or on an intermittent basis over 4 years.

Career opportunities

This programme has been designed not only to help you gain a highly regarded qualification but also to provide you with a set of major transferable skills, which will be relevant to your current career, further study or simply increase your long-term career prospects.



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The Oxford Master's in Mathematical Sciences (OMMS), provides a broad and flexible training in mathematical sciences, essential for research and innovation in the 21st century. Read more

The Oxford Master's in Mathematical Sciences (OMMS), provides a broad and flexible training in mathematical sciences, essential for research and innovation in the 21st century.

This MSc is run jointly by the Mathematical Institute and the Department of Statistics. It spans interdisciplinary applications of mathematics as well as recognizing fundamental questions and themes. Oxford has a world-class reputation in the mathematical sciences, and this master's offers students the opportunity to work with an international group of peers, including other mathematical leaders of the future.

This course draws on subjects in mathematics, statistics and computer science: from number theory, geometry and algebra to genetics and cryptography; from probability and mathematical geoscience to data mining and machine learning. You have the opportunity to choose from many different pathways, tailoring the programme to your individual interests and requirements. Examples of pathways include:

  • research in fundamental mathematics
  • data science
  • interdisciplinary research in fluid and solid mechanics
  • mathematical biology
  • industrially focused mathematical modelling
  • (stochastic) partial differential equations.

You will attend at least six units worth of courses (with one unit corresponding to a 16-hour lecture course supported by classes) in addition to writing a dissertation (worth two units). You will be encouraged to work collaboratively in classes, to develop your understanding of the material. Those wishing to extend themselves further might take one or two additional courses. 

The master's offers a substantial opportunity for independent study and research in the form of a dissertation. The dissertation is undertaken under the guidance of a supervisor and will typically involve investigating and writing in a particular area of mathematical sciences, without the requirement (while not excluding the possibility) of obtaining original results. A dissertation gives students the opportunity to develop broader transferable skills in the processes of organizing, communicating, and presenting their work, and will equip students well for further research or for a wide variety of other careers.

The Mathematical Institute is proud to have received an Athena SWAN silver award in 2017, reflecting its commitment to promoting diversity and to creating a working environment in which students and staff alike can achieve their full potential. The Department of Statistics is currently applying for a silver award. The departments offer extensive support to students, from regular skills training and career development sessions to a variety of social events in a welcoming and inclusive atmosphere.

This course runs from the beginning of October through to the end of June. Performance on the master's is assessed by invigilated written examinations and mini projects, and by the dissertation.



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We actively encourage postgraduate students on this course to undertake internships and build up a portfolio of clients and practical experience. Read more
We actively encourage postgraduate students on this course to undertake internships and build up a portfolio of clients and practical experience.

Course overview

Careers in Sport and Exercise Science can develop in at least two directions. Firstly you can help elite athletes reach their optimum sports performance. Secondly you can help the general population to improve fitness through exercise referral and community programmes.

This course allows you to specialise in both those areas, by providing you with a solid grounding in measurement, evaluation, research methods, data analysis, and sport and exercise psychology. Additionally, you will get the chance to study applied physiology, applied biomechanics or complete a personal project. The final stage is a research project that reflects your developed knowledge and skills.

Compared to undergraduate studies, this Masters has more emphasis on self-directed lab work, data collection and analysis. We encourage you to undertake real-world internships and build up experience with external clients and sports clubs. This practical experience will complement the rigorous research elements of the course.

By the end of the course you will have a portfolio of work, feedback from clients/employers, and a record of practical and academic projects. This will give you a clear advantage when it comes to applying for jobs.

Course content

The course mixes taught elements with independent research and self-directed study. There is flexibility to pursue personal interests in considerable depth, with guidance and inspiration from Sunderland's supportive tutors.

Core modules:
-Measurement and Evaluation (20 Credits)
-Applied Sport and Exercise Psychology (20 Credits)
-Applied Research Methods and Data Analysis (20 Credits)
-Masters Project (60 Credits)

Designated core modules (you must choose one of the following, but you may choose the other as an option):
-Applied Sport and Exercise Physiology (20 Credits)
-Applied Biomechanics in Sport and Exercise (20 Credits)

Optional modules (choose at least one):
-Strength and Conditioning in Practice (20 Credits)
-Sports Injuries, Management and Rehabilitation (20 Credits)
-Applied Weight Management (20 Credits)
-Professional Skills and Practice (20 Credits)
-Independent Learning Project (20 Credits)
-Applied Public Health (20 Credits)
-Brief Interventions (20 Credits)

Teaching and assessment

We use a wide variety of teaching and learning methods which include lectures, problem-based learning seminars, web-based resources, small group discussions and debates. You will develop your practical skills with workshops and laboratory classes.

Assessment methods include essays, case studies, portfolios, oral presentations, scientific reports, practical exams, data analyses, critical reviews, poster presentations and a dissertation.

Facilities & location

We have invested in the latest software and equipment so that you have maximum scope to measure and improve performance. Our facilities will propel your learning in sport and exercise sciences.

Biomechanics equipment

Our equipment can measure motion, muscle activity and forces on the body during high intensity sports and the activities of daily living. Equipment and techniques include the following:
-3D motion capture systems including Vicon® systems and Xsens® motion capture suits
-Software such as Dartfish®, Kinovea® and LongoMatch® software to capture live action images for match tagging and coaching feedback
-Movement tracking tools such as Actigraph® and Catapult®
-Delsys® Trigno electromyography equipment to see how the muscles of the body are working
-Kistler® force platforms and Batak® reaction walls to analyse sporting performance
-Novel® Pedar systems to analyse foot pressure

Exercise Physiology and Psychology
Our laboratories include the most up-to-date equipment for assessing human performance. You’ll get hands-on practical experience with the following:
-Polar® Team2 heart rate monitoring system for assessing the heart rates of a full squad of team players in real time
-Cortex® gas analysers to evaluate cardiovascular performance
-Biochemical analysers from Randox®, Jenway® and Gonotec® to measure substances and enzymes within the body
-Tendo®, Myotest® and Globus® equipment to profile your strength and power and develop specific training programmes
-Fusion Sport® SMARTSPEED light gates for assessing speed, agility and reaction times
-Assess and enhance cognitive performance using our Neurotracker® 3D multiple object tracking equipment

Sports Medicine and Anatomy
Anatomy is taught by experienced staff in a specialist clinical lab using skeletons, anatomical models, 3D software, online material and human subjects. You will learn techniques for sports injury rehabilitation, including the use of sports massage and ultrasound equipment.

You will also examine balance and stability using our Biodex® stability and balance trainer and assess strength imbalances using our sophisticated Biodex® dynamometer and new BTE Primus® rehabilitation equipment. You can investigate how new techniques such as thermal imaging are being used in injury assessment with Flir® IR cameras.

Fitness and Conditioning Suite
In our lab, you'll find fitness and conditioning equipment that would be the envy of most modern gyms. From a wide range of cardiovascular equipment to machine and Olympic weights, you will receive hands-on teaching in a professional environment.

University Library Services
The University library has thousands of relevant books, e-books and journal articles, with many more titles available through the inter-library loan service. We subscribe to useful resources such as SPORTDiscus, which provides journal articles, book chapters and summaries about sport, fitness and related disciplines.

Sciences Complex
This course is based in the Sciences Complex at our City Campus, which has benefited from multi-million pound investments. The IT facilities are excellent and, across the University, there are hundreds of workstations as well as wireless internet access. If you have any computer problems, just ask the friendly helpdesk team.

Sports facilities
Students at Sunderland have easy access to some of the best facilities in the region. These include:
-50m Olympic size swimming pool
-95m artificial ski slope
-Climbing wall with some of the best route setters in the UK
-Football training pitches at Sunderland AFC’s Academy of Light
-Marine Activities Centre for sailing, canoeing, kayaking and powerboating
-LTA indoor tennis centre with 13 indoor and outdoor courts
-Floodlit athletics tracks

CitySpace
Our City Campus features a state-of-the-art facility called CitySpace. It features:
-Sports hall (suitable for hosting large-scale events)
-Fitness suite/gym
-Strength and conditioning room
-Injury prevention and support suite
-Fitness classes
-Climbing wall

Employment & careers

Potential employers of graduates from this course include national sports associations, sports and leisure companies, recreation services, local authorities, health bodies including the NHS, schools and colleges. Job roles include the following (some require further training):
-Sports and exercise scientist
-Performance Analyst
-Sports coach/instructor
-Manager of health promotion initiatives
-Manager of cardiac rehabilitation and exercise referral
-Fitness centre manager
-Personal trainer/specialist fitness instructor
-Lecturer

Recent Sunderland graduates are now working within the fitness industry, sports development and in Further Education colleges.
A Masters degree will also enhance career opportunities within Higher Education and prepare you for further postgraduate studies.

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The aims of the course are to provide an understanding of key contemporary research problems in a range of disciplines in either the humanities and social sciences or physical sciences relating to the Arctic and Antarctica, and for students to undertake original research on a topic selected in consultation with members of staff. Read more
The aims of the course are to provide an understanding of key contemporary research problems in a range of disciplines in either the humanities and social sciences or physical sciences relating to the Arctic and Antarctica, and for students to undertake original research on a topic selected in consultation with members of staff.

Taught material is presented in the Michaelmas Term, usually in the form of seminars. The material is organized in two strands, suitable for students interested in the humanities and social sciences or in the natural sciences. It is examined through the submission of three essays, which can take the form of research papers. In the Lent and Easter terms students carry out research towards their dissertations. Dissertation topics are agreed with supervisors and are closely integrated with the ongoing research activities of the Scott Polar Research Institute (SPRI). Students are expected to participate in internal and external research seminars, and a research forum.

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

Course detail

The outcomes of the course are achieved both through focused study of specialised aspects of research on the Arctic and Antarctic, either in terms of Arts and Humanities or the Sciences, and through the development of research skills and methods. The following outcomes of student learning are sought:

Knowledge of ideas: Students gain familiarity with an appropriate range of intellectual and methodological traditions relevant to the study of the Arctic and Antarctic. For the humanities and social science strand, students draw on material from Geography, Anthropology, Political Science and other social sciences, and understand the significance of different epistemological positions that provide the context for research. For the physical sciences strand, students will become familiar with theories and empirical work from, amongst other areas, the fields of glaciology, oceanography and atmospheric science. They will gain knowledge and understanding of the field-based, remote sensing and modelling techniques used in polar science research. The teaching is provided via lectures and seminars, research supervision via bi-weekly meetings between students and their supervisor and sessions concerning research skills. Students also attend the research seminars held in their research groups. This allows exchange of ideas and debate with more experienced academic researchers and their peers;

Critical skills: Students become skilled and critical readers of Arctic and/or Antarctic publications and data sets. This is achieved through structured reading associated with each module, as well as via supervision on the essays and dissertation;

Substantive knowledge of ideas: Students gain in-depth knowledge of substantive areas of Arctic and/or Antarctic research. This knowledge is gained in the modules on The Emerging Arctic, Northern Peoples, Polar Remote Sensing, Glacier and Ice Sheet Dynamics: Present and Past. Students gain an in-depth knowledge either of underlying patterns of development, conservation and cultural transformation in the Arctic and/or Antarctic regions, or of the physical processes at work in these regions, how these have changed in the past and are changing currently, and the methods and techniques for investigating them;

Research design skills: Students develop their capacity to frame research questions, to derive appropriate research designs, and develop awareness of different epistemological approaches. This is achieved through the ‘Research Training’ sections of course;

Practical research skills: Students gain a competence and confidence in using a range of qualitative and/or quantitative methods for gathering, analysing and interpreting data. This is achieved through the ‘Research Training’ sections of course and the dissertation;

Presentation skills: Students gain skills in the presentation of research-based evidence and argument. Students are expected to take an active role in the research seminars of the research groups to which they belong and to contribute actively to seminar discussions. They are also expected to present their dissertation aims, methods, preliminary results, and plans for future work at a student forum held part way through their dissertation research period;

Management and other transferable skills: Students gain skills in managing a research project, and its execution (including, where appropriate, elements of data management, understanding ethics and codes of good practice in cross-cultural research, understanding uncertainty, disseminating research). Several of these elements are taught in the ‘Research Training’ sections of course, and then are extended and applied via the dissertation research, which has individual supervision from an experienced researcher.

Assessment

- 20,000 word dissertation that, at the discretion of the examiners, can include an oral examination on the thesis and the essays and on the general field of knowledge.
- Three essays or other exercises of up to 4,000 words each.

Continuing

70% overall in MPhil.

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

Funding Opportunities

AHRC for Arts and History topics approved by the AHRC DTP at University of Cambridge.

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

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​Professionally accredited by the Institute of Biomedical Science (IBMS), the course aims to provide a high quality and professionally relevant postgraduate programme focussing on the theoretical knowledge and the practice of Biomedical Science. Read more

Course Overview

​Professionally accredited by the Institute of Biomedical Science (IBMS), the course aims to provide a high quality and professionally relevant postgraduate programme focussing on the theoretical knowledge and the practice of Biomedical Science.

Your personal and professional understanding of Biomedical Science will be enhanced through an academically coherent programme of directed and self-directed learning. This will empower you to engage in and critically evaluate relevant contemporary issues through the application and theoretical analysis of practical laboratory based activities and research at Postgraduate level.

See the website https://www.cardiffmet.ac.uk/health/courses/Pages/Biomedical-Science---MSc.aspx

​Course Content​​

The programme will emphasise the development of analytical and critical skills and on problem identification and analysis within a Biomedical Sciences context. You will be taught by a team of experienced academics, researchers and professionally qualified staff. A number of the teaching team are also HCPC registered Biomedical Scientists.

Core modules are as follows:
- Molecular Biology
- Immunology
- ​Analytical and Diagnostic Techniques
- Research Methods in Biomedical Sciences

Option modules include:
- Medical Biochemistry and Advanced Topics in Medical Biochemistry
- Immunohaematology and Advanced Topics in Immunhaematology
- Medical Microbiology and Advanced Topics in Medical Microbiology and Infection
- Cellular and Molecular Pathology and Advanced Topics in Cellular and Molecular Pathology

Please note there is no guarantee that all modules will be offered every year. Provision is subject to student numbers and viability. An additional three modules are required for the research dissertation.

If you are admitted to the Master's scheme but subsequently are unable or not permitted to progress, you may, depending upon the number of credits attained at the time of exit, qualify for one of the following awards:
- Postgraduate Certificate (PgC): No fewer than 60 credits
- Postgraduate Diploma (PgD): No fewer than 120 credits
- Master of Science (MSc): No fewer than 180 credits

Candidature for the MSc is five years for part-time students i.e. the course must be completed and dissertation submitted within five years of registering.

Learning & Teaching​

​A variety of teaching strategies are employed to reflect the following:
- the requirements of the particular topic
- the existence of background experience within the group
- the level and type of study required at level 7

Lectures are the most prevalent teaching method for the introduction to module material, where the major function is to provide a basic framework, to generate interest in the subject concerned and to explain complex points. Lectures are complemented by tutorial sessions designed to encourage a more detailed examination of issues. Students are issued, in their module handbook, with a programme schedule of topics to be covered in lectures and supporting tutorials for all subjects, along with lists of references to guide their supplementary reading. The VLE will also host supporting materials.

Tutorials and related small group work is an important part of teaching and learning. It encourages the depth of discussion and application appropriate to higher degree work. The major aim is to develop skills related to thinking, discussion and presentation of information. It helps to develop analytical and critical appraisal skills.

Practical Work/Demonstration sessions in certain modules, such as Analytical and Diagnostic Techniques, Molecular Biology and the Dissertation, complement and extend the theoretical aspects of study and help to develop the students' skills of investigation, analysis, critical evaluation and reflection.

Case Studies are used throughout the programme as a means of encouraging students to apply their theoretical knowledge of biomedical science to real patients and thus take a holistic view of diagnostic medicine. Real cases are used and students are encouraged to integrate knowledge from a number of modules and to reflect on the possible outcomes
In addition to the contact hours per modules (approx. 40 hours per 20 credit module) the student will be expected to undertake a certain number of student led hours (approx. 160 per 20 credit module) to achieve an overall 200 hours of student effort per 20 credit module.

- Academic Support
Students are supported at each stage of learning and assessment. The Programme Director is responsible for overall academic management of the programme and support for the student. Module Leaders are responsible for academic guidance and support for each module offered and for academic feedback on student progress. The Project Manager is responsible for all the process regarding the project work and the dissertation. Personal tutorials will be arranged with your Personal tutor throughout the programme, and if you are experiencing any difficulties with your study for example problems with coursework or preparation for examinations, then there will always be a member of staff - the Programme Director, Module Leader or personal tutor available to assist you.

Assessment

It is recognised that assessment is a necessary part of an evaluation of a student's suitability for an award and involves testing and developing the higher-level cognitive skills of analysis, synthesis and evaluation. For this reason, assessment is designed to measure the extent to which the student is able to satisfy the intended learning outcome of each module. The learning outcomes are assessed within the modules through a variety of methods including:
- unseen examinations
- essays
- practical based laboratory exercises
- laboratory reports
- case studies
- poster presentation
- case study presentation
- abstract writing and journal article reviews

Time limited examinations are seen as an end of module check on student academic attainment in certain modules where a detailed understanding of contemporary scientific thinking, often research lead, is deemed to be an essential currency.

In addition, assignments are used either in addition to or as an alternative to written examinations in certain modules where they best reflect breadth of understanding.

The assessment schedule for the taught modules will be supplied by the programme director at the beginning of the programme. The module leader will supply the assessment titles and guidelines/criteria to undertake the assignments and provide feedback to the students.

Employability & Careers​

The course will prepare you for the next stage of your career, whether pursuing further research, or professional study, or entering employment in the field of Biomedical Science. The course will also enhance the career prospects of those aspiring to middle and senior management positions within the NHS Pathology Service and the commercial sector.

Find information on Scholarships here https://www.cardiffmet.ac.uk/scholarships

Find out how to apply here https://www.cardiffmet.ac.uk/howtoapply

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The MRes is a research-based Masters degree that offers specialised training in specific areas. The difference between the MRes and an MSc is that you'll spend more time on a lab-based project, and the final assessment (a thesis) and final award is closer to that for a PhD. Read more

Research opportunities

The MRes is a research-based Masters degree that offers specialised training in specific areas.

The difference between the MRes and an MSc is that you'll spend more time on a lab-based project, and the final assessment (a thesis) and final award is closer to that for a PhD.

This degree is delivered by the Strathclyde Institute of Pharmacy & Biomedical Sciences and offers a vibrant research environment for postgraduate training.

The taught part of your degree will increase your understanding of general scientific skills like statistics, ethics, and effective communication, while also increasing your knowledge in your specific subject through lectures and workshops.

You'll then move on to work on your project in an active research laboratory with a Principal Investigator and, potentially, with post-doctoral fellows and other postgraduate students.

This is an excellent way to find out about what a career in science is really like.

You'll also develop vital technique and project management skills that will prove highly attractive to future employers.

What you'll study

You can study an MRes in the following areas:

-biochemistry
-immunology
-microbiology
-in vivo sciences
-neuroscience
-pharmacology

You'll spend around two-thirds of your time undertaking a single laboratory-based research project, supervised by an academic member of staff.

In addition, you'll take taught classes delivered through lectures, workshops and practical labs in three areas:

-transferable skills training in data mining, interpretation and presentation; experimental planning; personal effectiveness, commercialisation and entrepreneurship
-advanced-level techniques, learning practical skills appropriate to the specialisation chosen
-advanced-level topics, gaining an in-depth understanding appropriate to the specialisation chosen

To support the chosen research project, you'll select advanced-level taught courses in your specialisation.

Support & development

Postgraduate Certificate in Researcher Professional Development (PgCert RPD)

Our PgCert RPD programme aims to ensure you get the most out of your current research activities at Strathclyde and help you prepare for your future career as a researcher.

We'll help you recognise and develop your transferable skills that'll have a positive impact on your research, now and in the future.

Careers

We have a great careers service here at Strathclyde that can help you with everything from writing your CV to interview preparation.

This MRes is ideally suited for:

-graduates looking to gain experience in practical laboratory techniques attractive to employers
-graduates seeking to make the transition from taught material to laboratory research in preparation for future PhD training

Where are they now?

100% of our graduates are in work or further study.**

Recent job titles include:

Biology Teacher
Laboratory Project Set up Co-ordinator
Research Associate
Research Technician

Recent employers include:

Beatson Institute
Boots
Quintiles
Rasa Life Science
University of Nottingham
*Information is intended only as a guide.

**Based on the National Destination of Leavers Study 2011/12 & 2012/13.

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This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities. Read more

Organizing institutions

This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities: Vrije Universiteit Brussel, Katholieke Universiteit Leuven, Universiteit Gent, Université de Liège , Université Catholique de Louvain et Université Libre de Bruxelles and the Belgian Nuclear Research Centre (SCK-CEN). Students can enroll for this master program at each of the six partner universities. The program is built up of 31 ECTS of common compulsory courses, 9 ECTS of elective courses and a compulsory Master Thesis of 20 ECTS.

The primary objective of the programme is to educate young engineers in nuclear engineering and ts applications and to develop and maintain high-level nuclear competences in Belgium and abroad. BNEN catalyses networking between academia, research
centres, industry and other nuclear stakeholders. Courses are organised in English and in a modular way: teaching in blocks of one to three weeks for each course, allowing for optimal time management for professional students and facilitating registration for individual modules.
All courses take place at SCK•CEN, in Mol, Belgium. The lectures take place in a dedicated, brand-new classroom in the conference centre of SCK•CEN (Club-House), located in a wooded area and nearby the SCK•CEN restaurant and library services. SCK•CEN offers a variety of accommodation options: houses, villas, studios and dormitories. For more information visit: http://www.sckcen.be

About the programme

The one-year progamme was created in close collaboration with representatives of the utility companies and power plants and teaches students in all aspects of nuclear technology and its applications, creating nuclear engineering
experts in the broad sense. Exercises and hands-on sessions in the specialised laboratories of SCK•CEN complement the theoretical classes and strengthen the development of nuclear skills and attitudes in a research environment. Various technical visits
are organised to research and industrial nuclear facilities.
The programme can be divided into three core blocks:
ƒ- A set of introductory courses allowing refreshing or first contact with the basic notions of nuclear physics, material sciences and the
principles of energy production through use of nuclear phenomena.
ƒ- A core block of nuclear engineering applied to power generation and reactor use; theory of reactors and neutronics, thermal hydraulic problems encountered in reactor exploitation, the nuclear fuel cycle and the specific material corrosion problems.
-ƒ An applications block where safe and reliable operation of nuclear power plants and the legal and practical aspects of radiation protection and nuclear measurements are discussed.

Scholarships

BNEN grants are available for full-time students.

Curriculum

http://www.vub.ac.be/en/study/nuclear-engineering/programme

Nuclear energy: introduction 3 ECTS credits
Introduction to nuclear physics 3 ECTS
Nuclear materials I 3 ECTS
Nuclear fuel cycle and applied radiochemistry 3 ECTS
Nuclear materials II 3 ECTS
Nuclear reactor theory 8 ECTS
Nuclear thermal hydraulics 6 ECTS
Radiation protection and nuclear measurements 6 ECTS
Operation and control 3 ECTS
Reliability and safety 3 ECTS
Advanced courses 4 ECTS
Master thesis 15 ECTS
Total 60 ECTS

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What is the Erasmus Mundus Master of Science in Theoretical Chemistry and Computational Modelling all about?. Get in at the bleeding edge of contemporary chemistry. Read more

What is the Erasmus Mundus Master of Science in Theoretical Chemistry and Computational Modelling all about?

Get in at the bleeding edge of contemporary chemistry: theoretical and computational chemistry are marking the new era that lies ahead in the molecular sciences. The aim of the programme is to train scientists that are able to address a wide range of problems inmodern chemical, physical and biological sciences through the combination of theoretical and computational tools.

This programme is organised by:

  • Universidad Autónoma de Madrid (coordinating institution), Spain
  • Universiteit Groningen, the Netherlands
  • KU Leuven, Belgium
  • Università degli Studi di Perugia, Italy
  • Universidade do Porto, Portugal
  • Université Paul Sabatier - Toulouse III, France
  • Universitat de Valencia, Spain

The Erasmus Mundus Master of Theoretical Chemistry and Computational Modelling is a joint initiative of these European Universities, including KU Leuven and co-ordinated by the Universidad Autónoma de Madrid. 

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Structure

The programme is organised according to a two-year structure.

  • The first year of the programme introduces you to concepts and methods. The core of the programme is an intensive international course intended to bring all participants to a common level of excellence. It takes place in the summer between year 1 and year 2 and runs for four weeks. Coursework is taught by a select group of invited international experts.
  • The second year of the programme is devoted to tutorials covering the material dealt with in the intensive course and to a thesis project carried out in part at another university within the consortium. The intensive course is organised at the partner institutions on a rotating basis.

Department

The Department of Chemistry consists of four divisions, all of which conduct highquality research embedded in well-established collaborations with other universities, research institutes and companies around the world. Its academic staff is committed to excellence in teaching and research. Although the department's primary goal is to obtain insight into the composition, structure and properties of chemical compounds and the design, synthesis and development of new (bio)molecular materials, this knowledge often leads to applications with important economic or societal benefits.

The department aims to develop and maintain leading, internationally renowned research programmes dedicated to solving fundamental and applied problems in the fields of:

  • the design, synthesis and characterisation of new compounds (organic-inorganic, polymers).
  • the simulation of the properties and reactivity of (bio)molecules, polymers and clusters by quantum chemical and molecular modelling methods.
  • the determination of the chemical and physical properties of (bio)molecules, and polymers on the molecular as well as on the material level by spectroscopy, microscopy and other characterisation tools as related to their structure.

Objectives

Modern Chemistry is unthinkable without the achievements of Theoretical and Computational Chemistry. As a result these disciplines have become a mandatory tool for the molecular science towards the end of the 20th century, and they will undoubtedly mark the new era that lies ahead of us.

In this perspective the training and formation of the new generations of computational and theoretical chemists with a deep and broad knowledge is of paramount importance. Experts from seven European universities have decided to join forces in a European Master Course for Theoretical Chemistry and Computational Modelling (TCCM). This course is recognized as an Erasmus Mundus course by the European Union.

Graduates will have acquired the skills and competences for advanced research in chemical, physical and material sciences, will be qualified to collaborate in an international research team, and will be able to develop professional activities as experts in molecular design in pharmaceutical industry, petrochemical companies and new-materials industry.

Career perspectives

In addition to commanding sound theoretical knowledge in chemistry and computational modelling, you will be equipped to apply any of the scientific codes mastered in the programme in a work environment, or develop new codes to address new requirements associated with research or productive activities.

You will have attained the necessary skills to pursue a scientific career as a doctoral student in chemistry, physics or material science. You will also be qualified to work as an expert in molecular design in the pharmaceutical industry, at petrochemical companies and in the new-materials industry. You will also have a suitable profile to work as a computational expert.



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This programme provides students with thorough education and training needed to understand different aspects of the field of material sciences. Read more
This programme provides students with thorough education and training needed to understand different aspects of the field of material sciences. It aligns with similar MSc programmes at the University of Liverpool and is delivered entirely in English.

The programme contains taught modules covering areas from synthetic chemistry to nanotechnology to analytical methods and instrumentation. It places strong emphasis on the development of project management and personal skills. After completing the taught modules, you will engage in a 12-month extensive research project of your choice that leads to submission of a dissertation.

A customised learning plan is designed for you, taking into account your background and career aspirations. Successful completion of the programme leads to the award of an MRes degree from the University of Liverpool.

What are benefits of the programme?

• Taught by international staff who are experts in various fields of chemistry
• Provides a range of critical interdisciplinary research skills
• Offers strong theoretical background, practical instrumentation skills and an intensive research project
• Excellent preparation for PhD programmes abroad and in Chinese universities
• Help you develop career-enhancing key personal and employable skills such as time management, report writing, team-building and networking, and project management
• The department has strong link to local and international industries
• XJTLU is in an attractive location with many biotechnology companies nearby in BioBay and the Cold Spring Harbour Asia Centre

Core Modules

• Synthetic Chemistry
• Natural Products
• Peptide/Protein Chemistry
• Nanotechnology
• Analytical Methods and Instruments

What are my career prospects?

• Successful graduates can establish careers in a wide range of industries including:
• Chemical and material
• Pharmaceutical
• Biotechnology
• Food and beverages (quality assurance and new formulation)
• Analytical labs

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In the course of the electronic revolution at the end of the 20th century, mechanical engineering was reinvented as the backbone of industrial production. Read more
In the course of the electronic revolution at the end of the 20th century, mechanical engineering was reinvented as the backbone of industrial production. The result is mechatronics, a synergistic combination of mechanical components with electronic and IT systems. This technological integration forms new areas of application like electrical and digital technology in machine communication and control.

With the introduction of the Master program in Mechatronics & Smart Technologies, MCI has filled a gap in the educational offering in the west of Austria. With its international orientation and a consistent focus on practical relevance, the program makes a significant contribution to the goal of establishing the Tyrol as a high-tech location with the ability to compete at the international level and defy the fluctuations of the business cycle. With the implementation of the majors in mechanical and electrical engineering and the specialization in computational mechanics at our partner campus in Paris, MCI continues its way as spear head of the Tyrolean technology offensive.

The goal of the Master program in particular is to equip graduates with a competence in mechatronics that is more than the sum of its parts, i.e. mechanical engineering, electronics and IT. Integration of these three pillars is the key to smart technologies as robotics, automated code generation, multi-physical simulation, systems in systems and smart automation, and their application in electro mobility, industry 4.0 and energy efficiency.

With supporting classes in Leadership, Strategic Management, Marketing and Entrepreneurship, this study program opens up perspectives for knowledge-based careers in the manufacturing and service industries worldwide.

Major Mechanical Engineering

The specialization in Mechanical Engineering prepares graduates for the challenges of modern mechanical engineering. The focus here is on simulation, hydraulics, pneumatics and material sciences, and also on mechanics, machine dynamics and handling technology.

Contents

The Master program in Mechatronics & Smart Technologies lasts four semesters comprising 915 hours of classes.

A semester of the full-time program comprises 15 weeks of lectures. The winter semester starts at the beginning of October until the end of January and the summer semester starts in March and lasts until the end of June.
Classes are entirely taught in English, attendance is required from Monday to Friday with additional block classes as well as project and laboratory work.

For the part-time program, the semesters last 20 weeks, from the beginning of September until the middle of February for the winter semester, and from the end of February until the middle of July for the summer semester. Classes are mainly taught in German but also partly in English. Attendance is required on Fridays from 1.30 to 10 p.m. and on Saturdays from 8 a.m. to 5 p.m., and there are additional block classes as well as project and laboratory work, etc.

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