The cell is the building block of life, the smallest unit with the molecular characteristics of living systems. Increased knowledge of the mechanisms of the biomolecular and biochemical processes in the cell can lead to better medicines, new methods for combating diseases.
The basis of the two-year master’s programme in Life Science and Technology is formed by research carried out in the life sciences and chemistry groups of the Leiden Institute of Chemistry (LIC). Researchers take a science-based approach in finding tailored solutions for complex societal problems as encountered in personalized medicine, systems biology and sustainable use of biological sources. Starting from day one, and during the whole master programme you are a member of a research team in the LIC. Guided by a personal mentor, the student assembles a tailor-made educational programme for optimal training to become a life sciences professional.
Read more about our Life Science and Technology programme.
Find more reasons to study Life Science and Technology at Leiden University.
If you are interested in Life Science and you are looking for a programme with ample of opportunities to assemble your own study path, our Life Science and Technology programme is the right choice. The programme addresses societal problems on a molecular and cellular level. You can also choose a specialisation where you combine one year of Life Science and Technology research with one year of training in business, communication or education.
Read more about the entry requirements for Life Science and Technology.
The Department of Education will not be recruiting to the MA in Science Education for the academic year 2018/19, as we are undertaking a review of our provision. The text below is for information only.
The Department of Education offers a one-year (12 month) taught full time MA in Science Education. This programme will be attractive to all those who have an interest in science education, whether as teachers, researchers or policy makers. Applications are welcomed from both home and international students.
Applicants are strongly advised to ensure that they submit applications no later than 1st September if they wish to begin a course of study beginning in the same year. No guarantee can be offered that applications received after this date will be processed for a September start date.
The Department also welcomes applications from people interested in studying for a PhD in science education in its areas of expertise (see below).
The University of York Science Education Group (UYSEG) has an outstanding international reputation for the excellence of its work in research and curriculum development in science education. Our school science programmes such as Science: the Salters Approach, Salters Advanced Chemistry, Salters Horners Advanced Physics and, most recently, Salters Nuffield Advanced Biology and 21st Century Science are widely used in this country, and have received international acclaim. Science: the Salters Approach and Salters Advanced Chemistry have been adapted for use in many other countries, including Belgium, Hong Kong, The Netherlands, New Zealand, Russia, South Africa, Spain, Swaziland and the USA. If you come to York, you will have the opportunity to work with one of the leading groups in science education.
As members of the University of York Science Education Group, the science education staff in the Department of Education have made a significant contribution to the high profile of science education at York. Science specialist staff currently in the Department include Professor Robin Millar, Professor Judith Bennett, Martin Braund and Fred Lubben. All hold major grants for research and development in science education.
Areas of expertise include assessment, attitudes to science, the use of context-based approaches to the teaching of science, curriculum development (including international collaboration on projects), evaluation of curriculum interventions, gender issues in science education, practical work in science, scientific literacy, systematic reviews of research literature, and the transition from primary to secondary school. Current international work includes involvement in the PISA (Programme for International Student Assessment) project and a number of initiatives in Southern Africa.
The reputation of the University of York Science Education Group was a major contributory factor in York being chosen as the home of the new National Science Learning Centre, which opened in September 2005 and offers a programme of professional development courses for science teachers.
The programme offers specialist tuition within an established framework for MA provision in the Department. The aims of the programme are:
-To enhance knowledge and understanding in science education
-To develop educational research capabilities and skills in the fields of education and science education
-To contribute, where appropriate, to professional development by enhancing capacity to investigate aspects of one or more of educational theory, policy and practice
-Science, Education and Society (20 credits)
-Research methods in education (20 credits)
One option module from a list of about 10 (20 credits). Options are likely to include:
-Cross-linguistic influences in second language acquisition
-Education and social justice
-Evaluating ESOL classroom practice
-Intercultural communication in education
-Learning and teaching second/foreign language reading
-Motivation in education
-Teaching and assessing speaking skills
-Teaching and assessing writing skills
-Teaching and learning in schools
-Teaching World English
-Topics in second language acquisition
-Recent research and innovation in science education (20 credits)
One option module from a list of about 10 (20 credits). Options are likely to include:
-Approaches to English teaching
-Contemporary issues in teaching
-Cross-cultural perspectives on language and discourse
-Learning and teaching grammar in a second language
-Pragmatics: language, meaning and communication
-Psychology of language and language learning
-Qualitative and quantitative data analysis
-Teaching and learning citizenship and global education
-Teaching English for academic purposes
-The practice of English language teaching
-Testing and assessment in English language teaching
Planning and Communicating Research (20 credits). Classes are spread over Terms 2 and 3.
The third term and the summer is also devoted to writing a dissertation (60 credits) based on a small-scale research study to be submitted by early September.
Students will also be able to attend the department series of research seminars for Masters students which includes talks by visiting speakers.
Students will complete:
-Four assessed coursework essay assignments (each 4,000 to 5,000 words in length)
-An exam in Research Methods in Education
-An assessed presentation + dissertation outline + ethics audit
-A dissertation of 12,000 words in length
Our graduates find employment in a wide range of sectors within education, but also in journalism, information management, human resources and other careers.
Our postgraduate courses can be used to complement teacher training/development programmes and voluntary or paid roles which focus on the more practical elements of teaching. However, other than our PGCE, our courses are not teacher training programmes in themselves.
The programme primarily aims to provide in-depth knowledge in one or more subdomains of educational studies (basic educational topics, instructional science, educational policy and adult education), but also offers advanced knowledge of educational processes, policy, innovation and research.
Through individualised assignments and research seminars, theexperienced teaching staff will provide you with an overview of basic theories and recent developments in the field of educational studies. In your master’s thesis you get the opportunity to work with KULeuven professors on their research.
Beyond fine-tuning your theoretical insights, you will come to grips with macro-, meso- and micro-processes, as well as methodological skills. Your research-based master's thesis will help you to both develop your aptitude for scholarship in the field and to contribute to it at the same time.
The main objective of the program is to encourage a profound knowledge and a deep understanding based on scientific educational research for those people who have already obtained a professional or academic degree and strive for a career in the field of education. The program offers a thorough understanding of educational models and insights in methodology, pedagogy and education to define educational issues and create learning environments to support and optimize the educational development of people (from early years to adulthood).
The Master of Science of Educational Studies embodies a scientific-professional and critical-reflective attitude and has attention for contemporary and societal developments and for the growing complexity in educational processes. The master is systematically and profoundly trained, is competent in translating research results to educational practices and is trained to approach educational issues in the practice of the classroom and the school in a scientific way and to give a justification for his/her approach. .
The master demonstrates concern and an engagement towards the education of young children and adults and a loving care and attention for the learning abilities of each person.
Master of Science in Educational Studies graduates go on to pursue careers as educational advisors, coordinators or managers in schools or in other educational settings. They are also qualified to play a role in the design and implementation of educational policies, in labour organisations and organisations concerned with vocational and professional education, as well as in community education and lifelong learning.
Successful graduates are also equipped to participate in research projects in Belgium and abroad and may go on to undertake a PhD before embarking on an international career.
How do children learn to reason in increasingly abstract ways? How do they learn language with such remarkable speed and fluidity? How do children use their reasoning and language skills to help them explain and understand people’s behaviour and emotions? Why does the amount of information that we can hold in mind at once increase from early childhood to adulthood? Why does children’s ability to control their own thinking, attention and behaviour improve as they get older? How does the development of children’s brains affect their behaviour, memory and ability to learn?
In this taught programme on Developmental Cognitive Science, you will learn how questions like these can be addressed using research techniques from several inter-related disciplines (e.g., Developmental Psychology, Cognitive Psychology, Computational Science, Neuroscience, Linguistics).
This programme aims to enhance your understanding of key theoretical and practical issues about typical and atypical development in children and young people, from a cognitive science perspective. It also aims to equip you with the skills required to conduct independent scientific research that addresses key issues in developmental cognitive science.
The University of Edinburgh has a long tradition of research expertise in developmental psychology and in cognitive science. This programme brings these two strands together focusing on a developmental cognitive science approach to both typical and atypical development in children and young people.
You will benefit from the breadth and strength of the interdisciplinary academic community at Edinburgh, for example by having the opportunity to select option courses and attend research seminars across different disciplines.
You will undertake the following:
Core courses (worth 100 credits in total):
2 option courses worth 20 credits in total:
And a Dissertation in Developmental Cognitive Science (60 credits)
The overall aim of the proposed programme is to advance students’ understanding of how questions about developmental changes in children’s cognitive abilities can be addressed using scientific methods drawn from a range of fields, including developmental psychology, cognitive psychology, computational modelling, neuroscience and linguistics. More specifically, the programme aims to:
Students who successfully complete the programme will be able to:
Career opportunities for graduates from this programme include:
Through dynamic and innovative teaching methods, we can encourage you to develop all the skills you need to become an effective science teacher and inspire a new generation of world-changers- http://www.gold.ac.uk/pgce/secondary-science/
This programme focuses on giving you the environment you need to develop personally and professionally, as well as teaching you to help students from a variety of cultures and backgrounds.
A professional network of school and College-based supporters will assist you throughout the entire course and engage you in both practical and theoretical enquiry in College and on a school placement.
We are committed to educating you in the highest quality of science teaching, and you will benefit from Goldsmiths’ close proximity to a number of significant science centres, museums, exhibitions and organisations.
In College, we focus on the ideas and principles underlying teaching. You look at how children learn and develop, and the role of language in learning. You consider factors to be taken into account when developing lessons that are interesting, balanced and relevant to pupils’ needs.
You have opportunities to explore the different ways in which pupils can develop understanding in science, and become familiar with a variety of resources that can be used to support these.
A particular focus is on how to manage pupils’ behaviour using a wide range of techniques; the programme also covers the assessment of pupils’ knowledge and progress.
Prospective science teachers need to be familiar with debates about the nature of science to allow them to play a full part in decisions about the ways in which school science courses should change. The impact of the National Curriculum on what science is taught, and how, is covered in depth.
You can expect to cover topics like:
school science courses at Key Stages 3 and 4
computing, data logging, safety
how children learn science
A-levels and Vocational A-levels
language and science education
We look at techniques for helping slow and fast learners, and give guidance on topics for teaching practice.
During the first term, you observe, participate in and take responsibility for lessons in local schools. A school-based tutor, working in close co-operation with College staff, gives you advice and support; you receive visits from a College-based tutor. You observe experienced teachers at work, and discuss their methods and any difficulties.
We ease you into teaching with plenty of support, and you take increasing responsibility for the work of particular classes under the supervision of the regular teacher.
Science teachers need to be able to teach all science up to and including GCSE level. Therefore, on this course we will integrate aspects of chemistry, biology and physics into sessions as well as providing sessions on specific topics within the sciences.
The Institute of Physics (IOP) has teacher training scholarships available to physics trainees. To be an IOP Scholar you will need to have outstanding knowledge of school-level physics and the potential to become an inspirational physics teacher. Each scholarship also includes a package of benefits including membership and early career mentoring. Go to the bursaries and scholarships page for more information.
It is also possible to study this course via our School Direct programme. Please visit our School Direct page to see which schools offer this subject.
As well as your PGCE fees, you will have to cover your travel costs to your school placements.
We produce reading packs electronically and in hard copy format. There’s a small charge for the hard copy reading packs. You may also be asked to contribute towards trips and some materials for your modules.
If you have specific questions about the degree, contact the Department of Educational Studies.
We have been training teachers since 1904, and have established a reputation for excellence in this field.
We see education as a window through which to view the world, and as something with the power to define who we are and how we live.
As a department we’re interested in seeing what education can tell us about the social, political and economic forces of our times. And what these forces mean for the everyday lives of individuals and groups.
We place a strong emphasis on active and collaborative learning, and we'll train you to become a reflective and socially conscious teacher.
We have partnerships with many London schools, offering you the chance to gain teaching practice in socially mixed, multi-ethnic urban classrooms.
We offer a high level of support through a system of school and personal tutoring.
Staff in the department carry out world-leading research – we're ranked 8th in the UK for the quality of this research.**
**Research Excellence Framework 2014, Times Higher Education research intensity subject rankings
It delves into areas including culture and identity, gender, multilingualism, and youth cultures, and why we maintain a commitment to social justice and inclusion.
A range of teaching methods are employed across the PGCE programmes, including:
• Taught subject sessions
• Taught General Professional Study sessions
• Practical workshops
• Core lectures
• Group tutorials/seminars
• Individual tutorials
• Individual and group presentations
• Supported self-study
As with the other PGCE courses, you’ll be given the opportunity to work with children in a wide range of contexts. These might include focused interventions with individuals or groups, or larger scale events for the community.
You apply for this PGCE through the UCAS Teacher Training website. Our institution code is G56 GOLD.
Please take a look at the information on applying, including the specific qualifications or experience you need for this course.
There's no closing date for primary or secondary applications, but we advise you to apply early to avoid disappointment.
Please visit http://www.gold.ac.uk/pg/fees-funding/ for details.