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Masters Degrees (Science Engagement)

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Our MSc Science Communication course is ideal if you are interested in science, technology, medicine, mathematics or engineering and want to work in the field of science communication. Read more

Our MSc Science Communication course is ideal if you are interested in science, technology, medicine, mathematics or engineering and want to work in the field of science communication.

You will develop the skills required to work in a range of sectors, including media, science policy, filmmaking, science outreach, public relations, museums and science centres, science festivals, and other public engagement fields.

Developed by the Centre for the History of Science, Technology and Medicine and Manchester Institute of Innovation Research , the course features masterclasses and project support from leading professionals in a wide range of sectors, together with experienced science communicators from across the University.

You will spend time building up practical communication skills, and thinking about the broad range of challenges that science communicators face. Does science communication matter for society? Whose interests are furthered by science news? What are the ethical issues in the communication of health research? When we talk about public engagement, what kind of public do we mean?

You will consider these and other questions through insights drawn from history, innovation and policy research, media studies, and the first-hand experience of long-serving communicators, and link these to practical skills.

Special features

Real world learning

We bring practitioners into the classroom and enable you to participate in the various forms of science communication that take place in Manchester to complement your academic learning with real life experiences.

Teaching and learning

You will learn through a mixture of lectures, small-group seminars, discussions and practical exercises. Activities will be included in the taught elements for both individual students and groups.

You will engage with primary and secondary academic literatures, professional literatures, and mass media products about science, technology and medicine.

You will also learn at special sites of science communication, such as museums, media institutions, and public events.

We encourage participation and volunteering to help you further your own interests alongside the taught curriculum. All students will meet regularly with a mentor from the Centre's PhD community, with a designated personal tutor from among the staff and, from Semester 2, a dissertation supervisor.

Applicants may informally request examples of study materials to help you test your ability to engage effectively with the course from the Course Director.

Coursework and assessment

All units are assessed by academic and practical tasks set in parallel. You should expect both written and spoken assessments that use a format appropriate to the relevant professional group or medium.

You may choose your own topic or medium for many of the assessments. Assessed work also includes a piece of original science communication research.

The final assessment is a project created under the supervision of a science communication professional (the mentored project).

Course unit details

The full-time version of the course runs for 12 months from September. There is also a part-time alternative, covering half the same classes each semester over two years. Part-time study involves a limited number of days' attendance per week and can be combined with part-time employment.

All students take three course units consisting of weekly lectures and discussion seminars:

  • Introduction to Science Communication (30 credits)
  • Communicating ideas in science, technology and medicine (15 credits)
  • Introduction to Contemporary Science and Medicine (15 credits)

All students also attend a series of intensive one-day schools on science communication practice and science policy, with sessions led by invited contributors including journalists, documentary filmmakers, museum professionals, policy analysts, outreach officers and other relevant experts. From these day schools, you will choose two of the following four areas to specialise in for assessed work (although you can sit in on all these units):

  • Science, media and journalism (15 credits)
  • Science museums, Science Centres and Public Events (15 credits)
  • Ideas and issues in science communication studies (15 credits) ¿ Science, government and policy (15 credits)

The course is completed by two more open-ended elements allowing you to specialise towards your preferred interests.

  • The science communication research project (30 credits) gives more scope for independent investigation and includes new research on a particular science communication topic.
  • The mentored project (60 credits), completed over the summer at the end of the course, involves working with support from a science communication professional on developing and analysing an activity close to professional practice.

Our course teaches the current trends in science communication, so details of our units may vary from year to year to stay up to date. This type of change is covered within the University's disclaimer , but if you are in doubt about a unit of interest, please contact us before accepting your offer of a place.

What our students say

Read about graduate Amie Peltzer's experience of the course on the Biology, Medicine and Health Student Blog .

Facilities

You will have use of a shared office in the Centre for the History of Science, Technology and Medicine, including networked computer terminals and storage space, and use of a dedicated subject library housed in the PhD office.

You will also be able to access a range of facilities throughout the University.

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: 



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IN BRIEF. Enjoy excellent job prospects in the growing field of science communication. This course is delivered in partnership with industry giving you the opportunity to tap into world-class professional networks. Read more

IN BRIEF:

  • Enjoy excellent job prospects in the growing field of science communication
  • This course is delivered in partnership with industry giving you the opportunity to tap into world-class professional networks
  • Access to state of the art MediaCityUK facilities during the course residential
  • A part-time only course
  • Based at MediaCityUK
  • International students can apply

COURSE SUMMARY

Over the last 25 years, science communication has expanded from a field of public intellectuals, celebrity scientists, broadcast media professionals and event producers to a global industry of ground-breaking artists, games developers, disruptive creators, radical curators, social entrepreneurs and citizen scientists. Developed in partnership with industry, this part-time, distance learning course will provide you with the knowledge and skills required to take advantage of excellent job prospects in this growing field.

Studying this MSc will provide you with the opportunity to accelerate your career and become part of a worldwide community which is pushing the boundaries of science communication through new and emerging technologies. You will gain practical and transferable skills informed by theory, a creative portfolio and access to world-class professional networks to progress your career in science communication. You will become mindful of the ethical challenges that new communication systems might pose to achieving sustainable development goals for health and wellbeing, gender equality and communities.

Through a selection of specifically designed modules, you will learn about the importance of involving the public in the co-creation of citizen science projects, explore the increasing trend of locating science within festivals, examine how art and science come together to innovate, and explore digital storytelling strategies for communicating science. Additionally, you will investigate how science writing and journalism has changed in a digital era, and focus on contemporary matters of global concern in science communication. All modules aim for you to develop and enhance your public portfolio through a range of creative projects.

Science communication is an expanding field and, as such, there are many exciting career prospects working in science journalism, public engagement, events production, science publishing and within the media, to name a few. Our academics have strong networks in the field and, as the course is delivered in collaboration with industry experts and professional science communicators, you can be sure that the skills and knowledge you gain are those you need to forge a successful career in the field and stay ahead of the curve. This course aims to bridge the #scicomm digital skills gap in an era where digital fluency, critical thinking, and creative innovation make professionals stand out from the crowd.

COURSE DETAILS

This science communication masters focuses on the areas of communication, media management, public engagement, emerging technologies, global challenges, digital literacy and creative practice.

Features  

  • Course content reflects and connects your needs with industry trends  
  • Digital skills and emerging technologies focus  
  • Become part of a global learning community  
  • Connectivity and access to world-class facilities  
  • Co-delivery with industry practitioners  

Benefits

  • Learn alongside cutting edge researcher-practitioners  
  • Secure a global competitive edge and excellent employment prospects  
  • Gain real world, practical and problem solving experience  
  • Create a portfolio to showcase and help secure future work  
  • Access to a national and international peer and industry network

SCHOLARSHIPS AND BURSARIES

We offer awards to help you study through our:

  • Vice-Chancellor's Excellence Scholarship
  • University of Salford student loyalty discount
  • Country bursary scheme for International students only

There are also other sources of funding available to you.

For more information please see our funding section.

EMPLOYABILITY

This science communication MSc is designed to equip the modern science communicator with the practical skills and theoretical grounding to carry out science communication, public engagement and policy roles in a wide range of institutions, from Universities to science festivals, museums and galleries to research funders, science and health charities, NGOs and science businesses spanning education, entertainment, PR/ advocacy and sustainable development.

Science communication professionals contribute to a wide range of industries including:

  • Media and creative industries;  
  • Science centres and museums;
  • Science education and outreach;
  • Research councils and policymaking.

Graduates could undertake roles (within these sectors and others) such as:

  • Broadcast, Media and Entertainment;
  • Science Journalism;
  • Science Advocacy;
  • Professional Consultancy;
  • Public Relations;
  • Science publishing;
  • Public Engagement; 
  • Public Involvement and Impact; 
  • Knowledge Exchange;
  • Museum education, exhibition and curation;
  • Events production, management.


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Science and technology has a key role to play in modern global and regional issues. To deal with them, decision makers and the general public need to be able to make evidence based choices. Read more

Science and technology has a key role to play in modern global and regional issues. To deal with them, decision makers and the general public need to be able to make evidence based choices. The MSc in Public Engagement and Science Communication will equip you with the skills (both communication and critical thinking) to effectively and efficiently explain complex issues in a way that is appropriate and relevant to the audience. In doing so, you'll have the skills to collaborate more effectively and lead in your future career.

This MSc is a cross faculty programme that taps into the most creative elements of science, drama and English to create a course that challenges science graduates to become engaging communicators. Along with the fundamentals of science communication, you'll have the opportunity to work with creative writers, theatre performers, and journalists to help you explore the medium you're most comfortable with and interested in. You'll also have the opportunity to gain real world experience through a work placement.

Alongside the taught modules, you'll conduct a piece of research into science communication, with the support of an academic supervisor and our social scientists. You'll learn through doing, and assignments will be based on real science communication activities. If you choose to write, you'll be encouraged to publish; if you take the drama modules, you will also take to the stage. This programme gives you the freedom to explore your creative ideas, whilst being guided and supervised by experienced science communicators.

Study information

Experiential learning and authentic assessments are central to the programme. You will practice and develop through applying your knowledge and talents in real world settings.

From the outset of the programme, you will be expected to develop ideas for your own public engagement activities. First trimester modules underpin this by setting the historical and philosophical scene, the present scene and the evaluation of future activities. You'll study:

  • Practice and Principles of Science and Communication and Public Engagement
  • Science Reason and Values
  • Research Design and Methodology

The second trimester allows you to build on your plans and deliver them during placements or through your own initiative. Alongside these experiential modules, specific creative skill sets are developed via drama or creative non-fiction modules. Modules include:

  • Science Communication, Activity Design and Delivery
  • Public Engagement Through Applied Performance
  • Creative Non-Fiction
  • Public Engagement Placement

The final dissertation allows you to investigate aspects of your own or others public engagement activities through a piece of novel, independent and relevant research.

* All modules are subject to availability.

Future prospects

This programme has been designed to enhance your profile, and make you more desirable by the traditional employers of science graduates.

Potential careers for skilled science communicators include journalism, teaching and broadcasting. However, communicators are employed by professional bodies, research councils, outreach teams in higher education and industry, visitors centres, politicians and festivals. Science communication also offers significant freelance work through festivals, school shows, journalism and broadcast media, making self-employment a serious and successful option for graduates.



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This programme gives you the opportunity to study the main contexts of contemporary science and technology; gain a broad base in science policy, communication, sociology and engagement; enjoy flexibility in specialisation; and work in an interdisciplinary environment with research experts. Read more

This programme gives you the opportunity to study the main contexts of contemporary science and technology; gain a broad base in science policy, communication, sociology and engagement; enjoy flexibility in specialisation; and work in an interdisciplinary environment with research experts.

About this degree

The programme provides broad-based training in three disciplines: science policy and governance; science communication, engagement, and evaluation; and sociology of modern science and technology. This programme encourages specialised investigation. It also encourages interdisciplinary integration. Our degree works in dialogue with our sister MSc programme in History and Philosophy of Science, which adds historical and analytical depth to our offer.

MSc students undertake modules to the value of 180 credits.

The programme consists of one core module (15 credits), four optional modules (60 credits), three ancillary modules (45 credits) and a dissertation (60 credits)

Postgraduate Diploma students undertake modules to the value of 120 credits: one core (15 credits), four optional (60 credits), and three ancillary (45 credits), studied over one year.

Postgraduate Certificate students undertake modules to the value of 60 credits. The programme consists of one core module (15 credits), and three optional modules (45 credits), studied over one year.

Core module

  • Introduction to Science and Technology Studies

Optional modules

Students must take three modules from a prescribed list of options including:

  • Practical Science Communication and Engagement
  • Curating the History of Science
  • Responsible Science and Emerging Technologies
  • Science in the 20th Century and Beyond
  • Science Policy Beyond Borders
  • Science, Media, and Culture
  • Science, Security, and Social Research
  • Sociology and the Sociology of Science
  • Special Topics Seminar in STS
  • Ancillary Modules
  • Students must take two ancillary modules which may be options from our own degrees:
  • for example, Material Culture and Science in the 18th Century or Knowledge, Evidence,
  • and Explanation in Science, or they might be selected from any other programme at UCL.
  • Module descriptions can be found on the STS website.

Dissertation/report

All MSc students undertake an independent research project which culminates in a dissertation of 10,000–12,000 words.

Teaching and learning

The programme is delivered through a combination of seminars, lectures, tutorials and research supervision. Student performance is assessed through coursework such as long and short essays, advocacy work, and project work.

Further information on modules and degree structure is available on the department website: Science, Technology and Society MSc

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

Our programme provides essential training and study for students wishing to pursue PhD level study in several fields, and also provides appropriate training and qualifications sought by individuals pursuing careers in areas such as education, museum and archival curatorship, or administration and policy-making in science, engineering and health care.

Recent career destinations for this degree

  • Complaints Handler, IPSO (Independent Press Standards Organisation)
  • Copy Editor, Spandidos Publications
  • Export Analyst, U.S. Army Military District of Washington
  • Medical Communications Intern, inVentiv Health
  • Senior Software Engineer, Kano

Employability

The programme offers a range of transferable skills and networking opportunities. No matter whether your career plan looks towards the public or private sector, we can help you build a portfolio of skills and contacts that will give your CV the edge. Highlights of the programme include:

  • the chance to develop practical media skills, including audio production
  • learning to write for different audiences
  • developing your skills in both practical and theoretical science communication, including working in a major London museum
  • to meet and network with policy makers.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

There is no UK academic department quite like UCL Science & Technology Studies. The department combines award-winning teaching with award-winning public engagement.

We are research active over an enormous range of topics. Our teaching builds on research not only in our subject specialties but also in the fundamentals of teaching and learning.

Our programme makes unique use of London’s attractions and resources. We have close links with the Science Museum, the National Maritime Museum, the Natural History Museum, the Wellcome Library, and UCL Museums & Collections. We also use the city as a classroom, with custom-made walking tours, site visits, and special excursions.



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The field of science communication and public engagement with science is currently enjoying unprecedented growth. This is driven by a greater need to demonstrate the impact of publicly funded research, the need for research to be valued, increased government scrutiny and a desire for a stronger evidence base for policy. Read more

The field of science communication and public engagement with science is currently enjoying unprecedented growth.

This is driven by a greater need to demonstrate the impact of publicly funded research, the need for research to be valued, increased government scrutiny and a desire for a stronger evidence base for policy.

Many career opportunities are emerging at the interface between scientific research and various public groups.

You will experience a variety of science communication and public engagement issues and methodologies. In the process, you will develop critical thinking skills and self-evaluation skills through reflective practice.

The learning gained from one course is transferable to other courses, thus ensuring interconnection across the programme.

This programme is affiliated with the University's Global Academies.

Programme structure

This MSc is a twelve-month programme, divided into three semesters. The final semester consists of a choice of research-or practice-based project. Students also complete placements in an organisational setting.

Teaching methods contain a blend of lectures, individual and small-group activities, and practice-based sessions. Teaching styles will be designed to ‘model’ the practices in science communication and public engagement.

Compulsory courses

  • Science and Society
  • Principles and Practice in Science Communication and Public Engagement
  • The Role of Social Media in Science Communication
  • Science Education
  • Dialogue for Science Communication and Public Engagement
  • Science Policy and Practice

Placements

Students will also complete two placements in public engagement workplaces.

The University of Edinburgh has excellent links with many organisations and placement opportunities include: National Museum Scotland, Edinburgh International Science Festival and placements in policy and education.

Career opportunities

There has been a significant rise in opportunities available for scientists with the specialist knowledge, skills and attributes necessary to pursue roles at the interface between scientific research and the public.

These roles can be found in, for example, higher education institutions, museums, science centres, learned societies and consultancies for democratic decision-making.

Examples of specific roles include Engagement Managers, Information and Education Officers, Policy and Knowledge Brokers.



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Curating Science will enable you to develop an independent academic and curatorial practice at the intersection of histories, philosophies and social studies of science, science communication and museum studies. Read more

Curating Science will enable you to develop an independent academic and curatorial practice at the intersection of histories, philosophies and social studies of science, science communication and museum studies.

You will engage with current debates in science communication and interpretive practice in museums, including cutting-edge art-science practices that are reimagining ways of knowing and being in the 21st Century. Alongside this, you will be encouraged to develop innovative practices of dialogic and participative engagement, developing their own ways of convening public spaces for debate.

You will undertake a range of active learning activities from developing displays, programmes and events to developing digital content and designing their own research projects. You will be supported throughout by an interdisciplinary academic staff team drawn from museum and curatorial studies and the histories and philosophies of science, as well as professionals from our partner institutions.

Students can specialise in their own areas of interest, through choosing from an array of optional modules that explore contemporary curatorial strategies, technologies and media, cultural memory, histories of medicine, audiences, participation and engagement. You will have the option of undertaking a negotiated placement with a museum or heritage organisation.

Course content

All students on the MA in Curating Science will take three core modules.

The History and Theory of Modern Science Communication allows students to explore how science, technology and medicine have been communicated to a wider public in the past. Students will identify how the processes and purposes of science communication has changed over the last two centuries and debate the consequences for science communication of the introduction of new media, ranging from the radio to the internet. The module addresses these questions by surveying the development of science communication since 1750, and by examining the changing theoretical perspectives that have underpinned these developments. Students will learn to re-examine the processes of contemporary science communication in the light of a deeper understanding of this history.

Interpreting Cultures is underpinned by action learning and puts contemporary curation in an international context. From the outset, students work on an interpretation intervention with one of the archives and collections on campus (such as The Stanley & Audrey Burton Gallery; Special Collections; Treasures of the Brotherton; Marks and Spencer Company Archive; ULITA ― an Archive of International Textiles; Museum of the History of Science, Technology and Medicine). This intensive experience of project planning, management, collaboration and team working prepares students for the option of undertaking a negotiated work placement in the second semester or optional modules exploring audiences, participation or engagement.

Through our Advanced Research Skills modules, students are equipped to undertake assessments and ultimately develop their own research project. The modules build to a symposium in Semester 2 where students present initial research findings towards a dissertation on a research topic of interest.

In addition, students choose from a range of optional modules offered by the School of Fine Art, History of Art and Cultural Studies and the School of Philosophy, Religion and History of Science. These include the opportunity to complete a placement or consultancy project role in either curational approaches or engagement.

Course structure


Compulsory modules

  • Curating Science Individual project (dissertation / practice-led) 50 credits
  • Advanced Research Skills 15 credits
  • Advanced Research Skills 25 credits
  • Interpreting Cultures 30 credits
  • History & Theory of Modern Science Communication 30 credits

Optional modules

  • Making Sense of Sound 30 credits
  • Encountering Things: Art and Entanglement in Anglo-Saxon England 30 credits
  • Anthropology, Art and Representation 30 credits
  • Humanity, Animality and Globality 30 credits
  • Technology, Media and Critical Culture 30 credits
  • Placements in Context: Policy, Organizations and Practice 30 credits
  • Historical Skills and Practices 30 credits
  • The Origin of Modern Medicine (Birth of the Clinic) 30 credits
  • Audience Engagement and Impact 30 credits

Learning and teaching

You will be taught by leading researchers and experienced practitioners in their fields, and you’ll benefit from a range of teaching and learning methods. They include lectures and seminars, gallery and museum visits, as well as hands-on experience of specific collections in library sessions.

Assessment

We use a range of assessment methods including essays, presentations, assignments and literature reviews among others, depending on the modules you choose.

Career opportunities

Through a combination of theory and practice, the programme produces graduates who are able to develop professional careers in the museums and heritage sector whilst retaining a critical and reflexive eye on their own practice and that of the institutions in which they work. It will equip you with a good understanding of the issues and approaches to science communication and curation, interpretation and engagement, as well as practical work experience ― a combination which is very valuable to employers.

To get a flavour of the kinds of career trajectories our graduates of allied MAs have taken see the ‘news’ section of the Centre for Critical Studies in Museums, Galleries and Heritage and the alumni pages of the School website.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.

Placement opportunities

In Semester 2 you will have the option to undertake a negotiated work placement to gain first-hand experience of curating science.

We have close links with many of the major cultural institutions and organisations in the region, meaning there are plenty of opportunities for you to explore. If you have a particular ambition in mind for your placement, we usually try to find a role that suits you.

Students on allied MAs have completed placements in organisations such as Leeds City Museum, Leeds Art Gallery, Harewood House, the Henry Moore Institute, National Science and Media Museum, York City Art Gallery, National Railway Museum, Impressions Gallery, The Tetley, Yorkshire Sculpture Park, Lotherton Hall, Abbey House Museum and the Royal Armouries.



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Many of the most pressing issues facing New Zealand and the world today—climate change, the loss of biodiversity, and how to respond to new technologies—can't be solved using traditional scientific approaches. Read more

Many of the most pressing issues facing New Zealand and the world today—climate change, the loss of biodiversity, and how to respond to new technologies—can't be solved using traditional scientific approaches.

In the age of social media, clickbait headlines and 'fake news', new means of communicating science and engaging different groups and communities are required.

The 180-point Master of Science in Society is a cross-disciplinary programme that combines taught courses, research projects and your choice of final project to give you a practical understanding of the role of science in society.

You'll learn how to engage New Zealanders in conversations about the science that impacts their lives so they can make informed decisions. Find out how you can influence policy change and research priorities.

Broad perspectives

Develop your understanding of contemporary scientific issues, and draw from a range of diverse fields such as philosophy, history and the creative arts to gain a broader and more nuanced perspective on science.

Gain an insight into the range of perspectives different communities have on scientific and environmental issues, and explore the important role of mātauranga Māori and other indigenous knowledge in science decision-making.

The Master of Science in Society is suited to students who are interested in science but don't want to pursue a traditional postgraduate science research programme. If you're interested in more effective public engagement around key scientific issues like conservation and pest eradication, or you're keen to pursue a career in science policy or advocacy, this degree is a good choice for you.

Learn from the best

Learn from award-winning academics and professionals who are leaders in the field of science communication, public engagement with science, natural and social science, the humanities and the arts. You'll also be exposed to a wide range of expertise from across the university and from visiting experts.

How you’ll study

The Master of Science in Society has two parts. The first part takes place in Trimester One, is based on-campus and is compulsory for all students.

In Part 1, you'll focus on developing your critical thinking and communication skills in four taught courses. Look at the theory and practice of science communication, and gain a grounding in contemporary scientific issues and theories. Explore perspectives on science from different cultures and from across the humanities and social sciences.

You'll choose from three of four core 400-level courses, and complete an additional approved course worth 15 points.

The field component of SCIS 589, the Science Communication Project, also takes place during Trimester One.

You'll go on to put your learning into practice in Part 2 by completing your science communication project and a research essay. You'll also choose to do a work placement or a research project, or choose other relevant courses from another discipline of your choice, such as Māori Studies, Public Policy or Conservation Biology.

While working on your final projects you'll be supervised by subject experts from within and outside of the university, and will continue to meet regularly with your fellow students in tutorials or seminar sessions.

Study off-campus

You can complete Part 2 of your Master's remotely if your placement or research project takes place outside Wellington. You'll need to have sufficient internet access to take part in online seminars, lectures and workshops.

Duration and workload

The Master of Science in Society will take you three trimesters (one year) of full-time study, or up to three years if you are studying part time.

If you are studying full time, you can expect a workload of 40–45 hours a week for much of the year.

If you're a part-time student, you can estimate your workload by adding up the number of points you'll be doing. One point is roughly equal to 10–12 hours work.



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This programme offers breadth across a wide range of historical and philosophical themes. It also encourages intensive investigation and specialisation. Read more

This programme offers breadth across a wide range of historical and philosophical themes. It also encourages intensive investigation and specialisation: a survey of nearly 3,000 years of scientific ideas and communities, and an exploration of the inner workings of science's methods and theories.

About this degree

The programme provides broad-based training in the history of science, the philosophy of science, and an “integrated history and philosophy of science”. The historical coverage is broad, from antiquity to the present, while the philosophical coverage spans causality and the philosophy of medicine as well as the metaphysics of chemistry and computer science.

MSc students undertake modules to the value of 180 credits.

The programme consists of one core module (15 credits), four optional modules (60 credits), three ancillary modules (45 credits), and a dissertation (60 credits).

The Postgraduate Diploma programme consists of one core module (15 credits), four optional modules (60 credits) and three ancillary modules (45 credits), available in full time mode

The Postgraduate Certificate programme consists of one core module (15 credits) and three optional modules (45 credits), available in full time mode

Core modules

  • Introduction to Science and Technology Studies

Optional modules

Students choose four options from the following:

  • Science in the 19th Century
  • Material Culture and Science in the 18th Century
  • Early Modern Science
  • Medieval Science and Medicine in Global Perspective
  • Science in Antiquity
  • Causality, Mechanism, and Classification in Science
  • Knowledge, Evidence, and Explanation in Science
  • Science, Art, and Philosophy
  • Special Topics Seminar in History and Philosophy of Science
  • One optional module from our sister MSc programme, Science, Technology, and Society, may be substituted provided it contributes to a coherent programme of study.
  • Module descriptions can be found on the STS website

In addition, students choose three ancillary modules which may be options from our degrees, or selected from any other programme at UCL.

Dissertation/research project

All MSc students undertake an independent research project which culminates in a dissertation of 10,000–12,000 words.

Teaching and learning

The programme is delivered through a combination of seminars, lectures, tutorials and research supervision. Student performance is assessed through coursework such as long and short essays, advocacy work and project work.

Further information on modules and degree structure is available on the department website: History and Philosophy of Science MSc

Careers

Our programme provides essential training for students wishing to pursue PhD level study in related fields. It also provides appropriate training for those pursuing careers in education, museum and archival curatorship, or governance and policy-making.

Recent career destinations for this degree

  • Art Gallery Curator, Dia Projects
  • PhD in History of Medicine, UCL

Employability

During the course of this programme, students will develop a wide range of transferable skills, including writing, research, critical thinking, and working in collaboration with others. Most graduates of this programme go on to follow careers that engage with the substance of the degree, including in the museums sector, or in academia. For these students, this programme provides an excellent opportunity to develop the specialist skills and personal connections necessary to succeed. These include basic curatorial skills, developing personal contacts in London museums, and developing personal and intellectual connections with key thinkers in the field.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

There is no UK academic department quite like UCL Science & Technology Studies. The department combines award-winning teaching with award-winning public engagement.

We are research-active over an enormous range of topics. Our teaching builds on research not only in our subject specialties but also in the fundamentals of teaching and learning.

Our programme makes unique use of London’s attractions and resources. We have close links with the Science Museum, the National Maritime Museum, the Natural History Museum, the Wellcome Library, and UCL Culture. We also use the city as a classroom, with custom-made walking tours, site visits, and special excursions.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Science & Technology Studies

82%: History subjects; 75%: Philosophy subjects rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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The Science Communication Unit at UWE Bristol is renowned for its innovative and diverse range of national and international activities designed to engage the public with science. Read more
The Science Communication Unit at UWE Bristol is renowned for its innovative and diverse range of national and international activities designed to engage the public with science. Our MSc Science Communication course is an excellent opportunity to benefit from the Unit's expertise, resources and contacts.

As well as drawing on the academic and practical experience of staff within the Science Communication Unit, our MSc programme gives you an opportunity to meet a range of visiting lecturers and benefit from their practical experience. This also provides an excellent networking opportunity for students interested in developing contacts among science communication practitioners.

Course detail

The course combines a solid theoretical background with practical skill development, and has excellent links with the sectors and industries it informs. Visiting specialists also help you understand what they are looking for in future employees.

Introductory modules provide a broad theoretical foundation in issues such as the rationale for public engagement with science, understanding the audience, the role of the media in society, communication theory and models of informal learning. You'll then have the opportunity to specialise by choosing from modules that cover practical skills related to taking science directly to the public, as well as new approaches to science communication such as digital media. This allows you to hone your practical skills and develop a portfolio that shows your expertise as a science communicator. In the final year, you may choose to further develop your portfolio, for example by mounting a practical science communication project, or take on a more theoretical or research-based project, perhaps with an external science communication organisation.

Modules

You will take the following three modules:
• Science and Society
• Science, the Public and Media

You then choose two from these three modules:
• Science on Air and on Screen
• Science in Public Spaces
• Writing Science

Format

Unlike most Master's courses in this area, the MSc Science Communication addresses the needs of working students. There are short, intensive teaching blocks of three to five days, and you can expect to attend three teaching sessions for each 30 credit module.

If you study this programme part-time, you'll take two 30 credit modules each for two academic years. It's possible to complete the part-time course in two years by finishing your project during the summer of the second year, or you may prefer to take a third year. Full-time students take four taught modules and complete the project in 14 months.

Group sessions are supplemented by directed and independent study, email discussions, tutorials and mentoring.

Assessment

The modules are assessed in a variety of ways, to reflect the theoretical concepts, knowledge and practical skills you'll develop. For example, through portfolios, reports and oral presentations all of which you can use to attract prospective employers. The ability to evaluate your own work and others' is critical to success in the workplace, and several assessments are designed to help you acquire these skills.

Careers / Further study

Science communication skills are in high demand in a wide range of sectors and industries, such as journalism, public relations, science centres and museums, science education, professional consultancy and Research Council/learned institutions.

Throughout the course, we'll encourage you to develop the professional skills to help you secure employment or research positions.

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –

The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Read more

Overview

The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Not only do students benefit from the inclusion of such specialist practitioners onto our teaching programmes, but could also be offered highly competitive research opportunities working within the hospital itself.

This MSc programme builds on this wealth of experience and best practice to enable well-qualified students to develop their scientific training and employability skills within a Biomedical context. The need for innovation and a multidisciplinary approach to Biomedical Science has never been more important. The teaching strategies embedded within this programme embrace these principles in its pursuit of Clinical Biochemistry, Medical Immunology and Haematology.

IBMS Accreditation

This programme is accredited by the Institute of Biomedical Science (IBMS) as the professional body of Biomedical Scientists within the United Kingdom. The IBMS aims to promote and develop the role of Biomedical Science within healthcare to deliver he best possible service for patient care and safety.

Accreditation is a process of peer review and recognition by the profession of the achievement of quality standards for delivering Masters level programmes.

Individuals awarded a Masters degree accredited by the Institute are eligible for the title of Chartered Scientist and the designation CSci if they meet the other eligibility criteria of corporate membership and active engagement in Continued Professional Development. A Masters level qualification is also one of the entry criteria for the Institute’s Higher Specialist Examination and award of the Higher Specialist Diploma, a pre-requisite for the membership grade of Fellowship and designation FIBMS.

The aim of IBMS accreditation is to ensure that, through a spirit of partnership between the Institute and the University, a good quality degree is achieved that prepares the student for employment in circumstances requiring sound judgement, critical thinking, personal responsibility and initiative in complex and unpredictable professional environments.

The Institute lists 10 advantages of IBMS accreditation:
1. Advances professional practice to benefit healthcare services and professions related to biomedical science.

2. Develops specific knowledge and competence that underpins biomedical science.

3. Provides expertise to support development of appropriate education and training.

4. Ensures curriculum content is both current and anticipatory of future change.

5. Facilitates peer recognition of education and best practice and the dissemination of information through education and employer networks.

6. Ensures qualification is fit for purpose.

7. Recognises the achievement of a benchmark standard of education.

8. The degree award provides access to professional body membership as a Chartered Scientist and for entry to the Higher Specialist Diploma examination.

9. Strengthens links between the professional body, education providers employers and students.

10. Provides eligibility for the Higher Education Institution (HEI) to become a member of HUCBMS (Heads of University Centres of Biomedical Science)

See the website https://www.keele.ac.uk/pgtcourses/biomedicalbloodscience/

Course Aims

The main aim of the programme is to provide multidisciplinary, Masters Level postgraduate training in Biomedical Blood Science. This will involve building on existing, undergraduate knowledge in basic science and applying it to clinical, diagnostic and research applications relevant to Clinical Biochemistry, Medical Immunology and Haematology.

Intended learning outcomes of the programme reflect what successful students should know, understand or to be able to do by the end of the programme. Programme specific learning outcomes are provided in the Programme Specification available by request, but to summarise the overarching course, aims are as follows:

- To develop students’ knowledge and understanding of different theoretical perspectives, methodological approaches, research interests and practical applications within Blood Science

- To explore and explicitly critique the clinical, diagnostic and research implications within the fields of Clinical Biochemistry,

- Medical Immunology and Haematology, and to place this in the context of a clinical laboratory, fully considering the potential implications for patients, health workers and research alike

- To develop a critical awareness of Biomedical ethics and to fully integrate these issues into project management including grant application and business planning

- To support student autonomy and innovation by providing opportunities for students to demonstrate originality in developing or applying their own ideas

- To direct students to integrate a complex knowledge base in the scrutiny and accomplishment of professional problem-solving scenarios and project development

- To enable student acquirement of advanced laboratory practical competencies and high level analytical skills

- To promote and sustain communities of practice that allow students to share best practice, encourage a multidisciplinary approach to problem-solving and to develop extensive communication skills, particularly their ability to convey complex, underpinning knowledge alongside their personal conclusions and rationale to specialist and nonspecialist listeners

- To provide students with a wide range of learning activities and a diverse assessment strategy in order to fully develop their employability and academic skills, ensuring both professional and academic attainment

Course Content

This one year programme is structured so that all taught sessions are delivered in just two days of the working week. Full-time students are expected to engage in independent study for the remaining 3 days per week. Consolidating taught sessions in this way allows greater flexibility for part-time students who will be expected to attend one day a week for two academic years, reducing potential impact in terms of workforce planning for employers and direct contact for students with needs outside of their academic responsibilities.

Semester 1 will focus on two main areas, the first being Biomedical ethics, grant application and laboratory competencies. The second area focuses on the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Clinical Biochemistry.

Semester 2 will also focus on two main themes; firstly, business planning methodological approaches, analytical reasoning and research. Secondly, the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Haematology and Immunology.

Compulsory Modules (each 15 credits) consist of:
- Biomedical Ethics & Grant Proposal
- Project Management & Business Planning
- Advanced Laboratory Techniques*
- Research Methodologies *
- Case Studies in Blood Science I
- Case Studies in Blood Science II
- Clinical Pathology I
- Clinical Pathology II

*Students who have attained the IBMS Specialist Diploma and are successfully enrolling with accredited prior certified learning are exempt from these two modules.

Dissertation – Biomedical Blood Science Research Project (60 credits)

This research project and final dissertation of 20,000 words is an excellent opportunity for students to undertake laboratory based research in their chosen topic and should provide an opportunity for them to demonstrate their understanding of the field via applications in Biomedical Science. Biomedical Science practitioners are expected to complete the laboratory and data collection aspects of this module in conjunction with their employers.

Requirements for an Award:
In order to obtain the Masters degree, students are required to satisfactorily accrue 180 M Level credits. Students who exit having accrued 60 or 120 M Level credits excluding the ‘Dissertation – Biomedical Blood Science Research Project’ are eligible to be awarded the Postgraduate Certificate (PgC) and Postgraduate Diploma (PgD) respectively

Teaching and Learning Methods

This programme places just as much emphasis on developing the way in which students approach, integrate and apply new knowledge and problem-solving as it is with the acquisition of higher level information. As such, particular emphasis is placed on developing critical thinking, innovation, reflective writing, autonomous learning and communication skills to prepare candidates for a lifetime of continued professional development.

The teaching and learning methods employed throughout this programme reflect these principles. For example, there is greater emphasis on looking at the subject from a patient-orientated, case study driven perspective through problem-based learning (PBL) that encourages students to think laterally, joining up different pieces of information and developing a more holistic level of understanding.

Assessment

The rich and varied assessment strategy adopted by this programme ensure student development of employability
and academic skills, providing an opportunity to demonstrate both professional and academic attainment. Assessment design is
largely driven by a number of key principles which include: promotion of independent learning, student autonomy, responsibility for personal learning and development of innovation and originality within one’s chosen area of interest. Note that not all modules culminate in a final examination.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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The MSc Archaeological Science will provide you with a solid grounding in the theory and application of scientific principles and techniques within archaeology. Read more
The MSc Archaeological Science will provide you with a solid grounding in the theory and application of scientific principles and techniques within archaeology. The programme also develops critical, analytical and transferable skills that prepare you for professional, academic and research careers in the exciting and rapidly advancing area of archaeological science or in non-cognate fields.

The programme places the study of the human past at the centre of archaeological science enquiry. This is achieved through a combination of science and self-selected thematic or period-based modules allowing you to situate your scientific training within the archaeological context(s) of your choice. The programme provides a detailed understanding of the foundations of analytical techniques, delivers practical experience in their application and data processing, and the ability to design and communicate research that employs scientific analyses to address archaeological questions. Upon graduation you will have experience of collecting, analysing and reporting on data to publication standard and ideally equipped to launch your career as a practising archaeological scientist.

Distinctive features

The MSc Archaeological Science at Cardiff University gives you access to:

• A flexible and responsive programme that combines training in scientific enquiry, expertise and vocational skills with thematic and period-focused archaeology.

• Materials, equipment, library resources and funding to undertake meaningful research in partnership with a wide range of key heritage organisations across an international stage.

• A programme with core strengths in key fields of archaeological science, tailored to launch your career in the discipline or to progress to doctoral research.

• A department where the science, theory and practice of archaeology and conservation converge to create a unique environment for exploring the human past.

• Staff with extensive professional experience in researching, promoting, publishing, and integrating archaeological science across academic and commercial archaeology and the wider heritage sector.

• An energetic team responsible for insights into iconic sites (e.g. Stonehenge, Çatalhöyük), tackling key issues in human history (e.g. hunting, farming, food, and feasts) through the development and application of innovative science (e.g. isotopes, residue analysis, DNA, proteomics)

• A unique training in science communication at every level - from preparing conference presentations and journal articles, to project reports, press releases and public engagement, our training ensures you can transmit the excitement of scientific enquiry to diverse audiences.

• Support for your future career ambitions. From further study to science advisors to specialists – our graduates work across the entire spectrum of archaeological science as well as moving into other successful careers.

Structure

There are two stages to this course: stage 1 and stage 2.

Stage 1 is made up of:

• 40 credits of Core Skills and Discipline-Specific Research Training modules for Archaeology and Conservation Master's students
• A minimum of 40 credits of Archaeological Science modules
• An additional 40 credits of Archaeological Science or Archaeology modules offered to MA and MSc students across the Archaeology and Conservation department

Stage 2 comprises:

• 60 credit Archaeological Science Dissertation (16-20,000 words, topic or theme chosen in consultation with academic staff)

Core modules:

Postgraduate Skills in Archaeology and Conservation
Skills and Methods for Postgraduate Study
Archaeological Science Dissertation

Teaching

Teaching is delivered via lectures, laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant local resources such as the National Museum Wales and local heritage organisations.

Lectures take a range of forms but generally provide a broad structure for each subject, an introduction to key concepts and relevant up-to-date information. The Archaeological Science Master's provides students with bespoke training in scientific techniques during laboratory sessions. This includes developing practical skills in the identification, recording and analysis of archaeological materials during hands on laboratory sessions. These range from macroscopic e.g. bone identification, to microscopic e.g. material identification or status with light based or scanning electron microscopy, to sample selection, preparation and analysis e.g. isotopic or aDNA and include health and safety and laboratory management skills. Students will be able to develop specialist practical skills in at least one area of study. In workshops and seminars, you will have the opportunity to discuss themes or topics, to receive and consolidate feedback on your individual learning and to develop skills in oral presentation.

This programme is based within the School of History, Archaeology and Religion and taught by academic staff from across Cardiff University and by external speakers. All taught modules within the Programme are compulsory and you are expected to attend all lectures, laboratory sessions and other timetabled sessions. Students will receive supervision to help them complete the dissertation, but are also expected to engage in considerable independent study.

Assessment

The 120 credits of taught Modules within Stage 1 of the Programme are assessed through in-course assessments, including:

Extended essays
Oral presentations
Poster presentations
Statistical assignments
Critical appraisals
Practical skills tests
Data reports
Research designs

You must successfully complete the taught component of the programme before progressing to Stage 2 where assessment is:

Dissertation (16-20,000 words)

Career prospects

After successfully completing this MSc, you should have a broad spectrum of knowledge and a variety of skills, making you highly attractive both to potential employers and research establishments. You will be able to pursue a wide range of professional careers, within commercial and academic archaeology and the wider heritage sector. Career paths will generally be specialist and will depend on the choice of modules. Graduates will be well placed to pursue careers as a specialist in isotope analysis, zooarchaeological analysis or human osteoarchaeology. They will also be in a position to apply for general laboratory based work and archaeological fieldwork. Working within science communication and management are other options. Potential employers include archaeological units, museums, universities, heritage institutions, Historic England and Cadw. Freelance or self-employment career routes are also common for animal and human bone analysts with postgraduate qualifications.

The archaeology department has strong links and collaborations across the heritage sector and beyond. British organisations that staff currently work with include Cadw, Historic England, English Heritage, Historic Scotland, National Museum Wales, the British Museum, the Welsh archaeological trusts and a range of other archaeology units (e.g. Wessex Archaeology, Oxford Archaeology, Cambridge Archaeology Unit, Archaeology Wales). In addition, staff are involved with archaeological research across the world. You will be encouraged to become involved in these collaborations via research projects and placements to maximise networking opportunities and increasing your employability.

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Our MSc in Social Science Research Methods aims to provide advanced training in research methods across the full range of the social sciences. Read more
Our MSc in Social Science Research Methods aims to provide advanced training in research methods across the full range of the social sciences. 

You will be provided with a thorough theoretical and practical knowledge of how to construct effective research studies, of the variety of data collection methods available to the social scientist and of the principal methods of analysing social scientific data. You will also be introduced to the political and ethical frameworks within which social science research is conducted, and to some of the ways in which the results of social science research are disseminated.

The course pathways have ESRC recognition and they each provide the appropriate training basis for proceeding to a PhD. These programmes provide extensive opportunities for interdisciplinary study, the application of social research expertise for occupational career development, and the pursuit of substantive areas of interest at postgraduate level. 

Science and Technology Studies pathway:

The Science and Technology Studies pathway through the Social Science Research Methods MSc is suitable for all students with an interest in the social dimensions of science and technology. We have research expertise in a range of substantive and methodological approaches and can offer supervision and training for students interested in:

• Sociology of science and technology, including natural sciences, biotechnology, medicine and genomics
• Nature, distribution and classification of expertise
• Public understanding of, and engagement with, science and technology
• Use of scientific advice and other forms of expertise in decision-making

Structure

The course can be completed in one year with full-time study or in three years by part-time study.

You will be required to complete six 20-credit modules - five core research modules and one specialist pathway module. In all modules, you will have the opportunity to engage with literature and research relevant to your pathway.

On successful completion of the taught component, you will prepare a dissertation of a maximum 20,000 words. The 60-credit dissertation component requires independent study. You will choose your dissertation topic in agreement with your supervisor.

Core modules:

Developing Core Research Skills
Foundations of Social Science Research
Qualitative Research Methods
Quantitative Research Methods
Research Applications
Introduction to Science, Technology and Society
Dissertation

Teaching

Your programme will be made up of scheduled learning activities (including lectures, seminars, tutorials and practical sessions) and guided independent study.

You will be expected to actively engage in all the educational activities on your programme of study, to prepare for and attend all scheduled teaching activities, and continue your development as an independent and self-directed learner.

Assessment

You will have to successfully complete the taught component which comprises of 120 credits.

On successful completion of the taught component, you will prepare a dissertation of a maximum 20,000 words

Career prospects

This programme provides knowledge and expertise suitable for careers in research and development, business, market studies, public agencies at international, national and local levels, education, teaching and other public services work, and voluntary organisations.

It also provides appropriate training for proceeding to a PhD.

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This programme will give you an insight into the complex history of technology, medicine, scientific knowledge and methodology, as well as how they have shaped the world we live in. Read more

This programme will give you an insight into the complex history of technology, medicine, scientific knowledge and methodology, as well as how they have shaped the world we live in.

You’ll explore the themes, concepts and debates in the study of the history of science through core modules. These will also allow you to develop your historical research skills, using our excellent library resources to work with primary and secondary sources. But you’ll also choose from a range of optional modules that allow you to specialise in topics areas that suit your interests, from birth, death and illness in the Middle Ages to modern science communication.

Guided by leading researchers and supported by our Centre of History and Philosophy of Science, you’ll learn in a stimulating environment with access to a wide range of activities. You could even gain research experience by getting involved in the development of our Museum of the History of Science, Technology and Medicine.

We have world-class research resources to support your studies. The Brotherton Library houses extensive manuscript, archive and printed material in its Special Collections, including Newton’s Principia, a first edition of his Opticks and thousands of books and journals on topics from the 16th century onwards on topics such as astronomy, botany, medicine, physiology, chemistry, inventions and alchemy. You’ll also have access to the collections of artefacts across campus that we have brought together through the Museum of the History of Science, Technology and Medicine.

The Centre also hosts a number of research seminars given by visiting speakers, staff members and doctoral students and which all postgraduate students are encouraged to attend. There are also regular reading groups on a wide range of topics and the seminar series of other centres within the School are also available.

Course content

In your first semester you’ll take a core module introducing you to different approaches and debates in history of science, technology and medicine, as well as how they have been used over time to help us understand scientific developments. You’ll build on this in the following semester with a second core module that will give you a foundation in historical skills and research methods, equipping you to work critically and sensitively with primary and secondary sources.

You’ll have the chance to demonstrate the skills and knowledge you’ve gained in your dissertation, which you’ll submit by the end of the year. This is an independently researched piece of work on a topic of your choice within the history of science, technology and medicine – and you can choose to take an extended dissertation if you want to go into even greater depth.

Throughout the year you’ll be able to choose from a range of optional modules, allowing you to develop your knowledge by specialising in a topic of your choice such as science and religion historically considered, or science in the museum. You’ll take one optional module if you take the extended dissertation, or two if you do the standard dissertation.

If you choose to study part-time, you’ll study over a longer period and take fewer modules in each year.

Course structure

These are typical modules/components studied and may change from time to time. Read more in our Terms and conditions.

Compulsory modules

You’ll take three compulsory modules, though you can choose whether to take a standard (60 credits) or extended (90 credits) dissertation. You’ll then choose one or two optional modules.

  • Historical Skills and Practices 30 credits
  • Current Approaches in the History of Science, Technology & Medicine 30 credits

Optional modules

  • The European Enlightenment 30 credits
  • Lifecycles: Birth, Death and Illness in the Middle Ages 30 credits
  • Science and Religion Historically Considered 30 credits
  • History & Theory of Modern Science Communication 30 credits
  • Special Option (History of Science) 30 credits
  • Science in the Museum: Interpretations & Practices 30 credits
  • The Origin of Modern Medicine (Birth of the Clinic) 30 credits

For more information on typical modules, read History of Science, Technology and Medicine MA Full Time in the course catalogue

For more information on typical modules, read History of Science, Technology and Medicine MA Part Time in the course catalogue

Learning and teaching

Most of our taught modules combine seminars and tutorials, where you will discuss issues and concepts stemming from your reading with a small group of students and your tutor. You’ll also benefit from one-to-one supervision while you complete your dissertation. Independent study is also an important element of the programme, allowing you to develop your skills and pursue your own interests more closely.

Assessment

We assess your progress using a combination of exams and coursework, giving you the freedom to research and write on topic areas that suit your interests within each module you study.

Career opportunities

You’ll gain a range of in-depth subject knowledge throughout this programme, as well as a set of high-level transferable skills in research, analysis, interpretation and oral and written communication that are very attractive to employers.

As a result, you’ll be equipped for a wide range of careers. Some of these will make direct use of your subject knowledge, such as museum work or public engagement with science, while your skills will enable you to succeed in fields such as business and finance, publishing, IT and teaching.

Graduates of our School also regularly go onto careers in journalism, the media, social work, human resources, PR, recruitment and the charity sector. Many also continue with their studies at PhD level and pursue careers in academia.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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Science, technology and innovation are central to contemporary society, solving and creating challenges in equal measure. This interdisciplinary programme examines the social, political and cultural dimensions of science, technology and innovation. Read more

Science, technology and innovation are central to contemporary society, solving and creating challenges in equal measure. This interdisciplinary programme examines the social, political and cultural dimensions of science, technology and innovation.

This programme offers a comprehensive introduction to the interdisciplinary field of science and technology studies, and is intended for students wishing to develop a theoretical and practical understanding of the role of science, technology and innovation in society.

We host one of the leading international centres of interdisciplinary research and teaching in science, technology and innovation studies, which means you’ll be studying as part of a vibrant community of scholars.

You’ll be able to call on the expertise of our highly regarded academic staff, particularly in the areas of:

  • sociology and social history of science and technology
  • sociology and economics of the life sciences and medicine
  • social shaping of technology
  • science and technology for international development
  • management of technology and innovation
  • politics of public engagement with science and technology

Programme structure

This programme is delivered through lectures, seminars, group work and guided independent study.

You will complete four compulsory courses and three or four option courses and then work on an independently researched dissertation.

You can also pursue a dissertation through a work-based placement.

Learning outcomes

Graduates will be expected to:

  • possess a theoretical grounding in the interdisciplinary field of science, technology and innovation studies
  • display the ability to critically employ theories and concepts from science, technology and innovation studies for the analysis of a range of empirical examples
  • understand the methodological and epistemological underpinnings of a range of social science approaches for understanding science, technology and innovation
  • have a critical awareness of current issues in the area of science, technology and innovation studies along with an understanding of how this area intersects with other disciplinary domains
  • be able to communicate their acquired methodological and analytical insights to academic and non-academic audiences alike
  • be capable of translating academic findings from science, technology and innovation studies into practical suggestions for public and policy contexts.

Career opportunities

This programme is ideally suited to students looking to enter a career in academia, science communication, policy and government, social research and analysis, and non-governmental organisations.

You will also develop a range of highly transferable skills, such as communication and project management, which can be applied to roles in any field.



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This is a unique opportunity for artists to collaborate in the world of science with opportunities in the fields of public health, astrophysics, sports science, technology, museum practice, computing, medicine and forensics. Read more
This is a unique opportunity for artists to collaborate in the world of science with opportunities in the fields of public health, astrophysics, sports science, technology, museum practice, computing, medicine and forensics.

•Enrol on a truly innovative course, collaboratively developed with academic experts across a number of disciplines that include: Art and Design, Science, Education, Health and Community, Technology and Environment
•Enjoy access to a number of different established research centres across Liverpool John Moores University
•Develop real world skills on a programme unique to the UK and decide which areas of art and science you wish to follow as the programme progresses
•Explore art and science project briefs in unexpected forms

This practical, collaborative and vocational discipline can be applied to a rich variety of creative contexts and purposes within collaborative areas in art and science.

The MA is a studio based programme with collaborative practice and discovery at its core. The programme will offer a number of options for study and collaboration including; science and archaeological visualisation, museums, advertising, education, public health, biomedical communications, sports science and forensics.

You will focus on the practical application of art in a science context and be guided in understanding how this translates through a sequence of set and self-initiated projects.

You will define your existing practice and extend its scope and ambition within an art and science context, while studying themes related to public engagement, ethics, data protection and working with humans in research, and developing an understanding of current research happening in collaborative areas in art and science.

The programme will encourage you to work across other disciplines and, where appropriate, collaborate with other MA programmes within the Liverpool School of Art and Design, as well as other postgraduate taught courses across LJMU and external partners. It aims to help you to understand research happening in collaborative areas in art and science, and to develop research skills and relevant approaches to your practice and the critical techniques to support your final project.

Learning takes place predominantly through the creative and critical exploration of research focused Art in Science projects.

The programme is delivered full time over one year and features a significant amount of independent study. You will exhibit your final work at the Masters degree show which involves all Liverpool School of Art and Design's taught postgraduate Masters students.

Facilities and Research Groups

The programme is based in the Liverpool School of Art and Design’s John Lennon Art and Design building, a purpose-built facility in Liverpool city centre which encourages interaction between different disciplines and sharing of ideas and expertise.

As a Masters student on this course you may become linked to our Exhibition Research Centre, Design Lab, Contemporary Art Lab and the Face Lab.

Throughout the programme you will have opportunities to visit and potentially collaborate with research centres across LJMU. This may include: The Centre for Advanced Policing Studies, Centre for Public Health, Astrophysics Research Institute, Centre in Evolutionary Anthropology and Palaeoecology and the Research Institute for Sport and Exercise Sciences.

What you will study on this degree

Please see guidance below on core and option modules for further information on what you will study.

Level 7

-Studio practice (Art in Science)
-Research and Practice
-Collaborative practice
-Major project (Art in Science)

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

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