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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. Read more
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).

Why come to York?

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.

Programme Aims

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

Programme Content

Term 1
-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:
-Bilingualism
-Citizenship education
-Cross-linguistic influences in second language acquisition
-Discourse Analysis
-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

Term 2
-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
-Developmental Psycholinguistics
-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

Term 3
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.

Assessment

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

Careers

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.

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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. The Postgraduate Certificate in Practical Science Communication, linked to the world-class MSc Science Communication course, and also designed by the Science Communication Unit, is aimed at students seeking an additional qualification. It is an 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, the course 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 focuses on practical skills development, and has excellent links with the sectors and industries it informs, with visiting specialists helping you to understand what they seek in future employees.

Depending on the options you take, you will develop skills in science writing, cutting-edge science communication techniques, and the abilities you'll need to develop and run science communication projects. This includes devising and managing projects, evaluations and funding.

Modules

You will choose two from these three modules (30 credits each):

• Science on Air and on Screen - Build your radio, TV and digital skills by critically exploring the role of broadcast media in the communication of science. You'll also make an 'as live' radio magazine programme about science, and a short film.

• Science in Public Spaces - Develop your own science communication initiative in this hands-on module from developing a creative concept, to seeking funding, and managing and evaluating a project. You'll explore a range of innovative approaches from sci-art, to museums, festivals to theatre.

• Writing Science - Develop journalistic and other writing styles, including writing for news media, public relations and educational purposes, with a view to developing a portfolio, as well as working on a magazine project.

Format

The course comprises short, intensive teaching blocks of three days (Thursday to Saturday) and you'll most likely need to attend three teaching sessions for each 30-credit module. Group sessions are supplemented by directed and independent study, email discussions, and tutorials.

Assessment

We assess modules in a variety of ways, to reflect the practical skills you'll develop. For example, through portfolios, reports and oral presentations - all of which you can use to attract prospective employers.

Careers / Further study

Practical 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, you are encouraged to develop the professional skills that will help you secure employment or research positions in science communication, or to combine it with your existing career.

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 MSc in Educational Psychology aims to prepare Trainee Educational Psychologists to work as practitioners of applied educational psychology in local government (usually Education or Social Services), in voluntary agencies and elsewhere, in the U.K. Read more
The MSc in Educational Psychology aims to prepare Trainee Educational Psychologists to work as practitioners of applied educational psychology in local government (usually Education or Social Services), in voluntary agencies and elsewhere, in the U.K. and beyond.

Why study Educational Psychology at Dundee?

This two-year full-time professional training programme leads to qualification as an Educational Psychologist and eligibility for registration with the Health and Care Professions Council (HCPC) as an Educational Psychologist, after a further year of supervised practice in a local authority psychological service and obtaining the Qualification in Educational Psychology (Scotland) (Stage 2).

A key feature of the programme at Dundee is Problem Based Learning (PBL) which has been shown to be effective in promoting the development of active independent learning as well as collaborative learning. PBL provides an integrated model of teaching and learning as it crosses subject boundaries.

The programme incorporates a spiral curriculum whereby there is an iterative revisiting of topics, subjects or themes throughout the programme. Trainees build new knowledge on prior knowledge and achieve better understanding by exploring topics at deepening levels and in more complexity. Examples of this are the teaching and practical application of frameworks for practice; working with video to reflect on effective communication; and the development of critical reflection skills.

Aims of the course

The aims of the programme are to promote:
The acquisition and development of information, theories, evidence, strategies, skills, services and products, which are based on educational psychology, and relevant to:
- Enhancing effective learning
- Promoting positive social, emotional and behavioural development
- Promoting inclusion
- Co-operative problem-solving
With children, parents, teachers and a wide range of other carers and other professional agencies

Who should study this course?

The programme is aimed at applicants who wish to train as educational psychologists. Applicants have a wide variety of previous qualifications, experience and employment history.

How you will be taught

This course is taught by staff in the School of Education, Social Work and Community Education..
The course runs every two years, in even numbered years, i.e. 2012, 2014, etc. The start date is September and it lasts for 24 months.

Learning experiences in the university are closely linked with those from a series of practical placements in local authority psychological services.

Active and self-managed learning methods are emphasised.

The curriculum is delivered through a range of traditional teaching and learning sessions, practical tasks, role play, video analysis and feedback, peer tutoring and assessment, demonstration and other forms of experiential learning. The utilisation of problem based learning provides an integrated model of teaching and learning.

What you will study

Based on the assumption that educational psychology is primarily about effective learning in different contexts, the programme includes the following taught academic modules that reflect the different ages/stages as well as the various organisational contexts that EPs work to.

There are 5 compulsory academic modules:

Year 1:
Introduction to Educational Psychology Practice
Educational Psychology Practice in the Early Years
Educational Psychology Practice in the Primary Years

Year 2:
Educational Psychology Practice in Secondary and Post-School Years
Advanced Educational Psychology Practice

These modules are designed to facilitate exploration of the following curricular areas in a holistic and integrated manner: child and adolescent development - normal and exceptional; assessment and intervention - individual and systemic; contexts and systems in which children and young people develop and learn; research and evaluation methods; and transferable interpersonal and professional skills.

There are also 2 compulsory placement modules, undertaken in local authority Psychological Services, one in Year 1 and the other in Year 2.

How you will be assessed

There are no traditional written examinations. All assessment is continuous by written academic reports and assignments, oral presentations, a major research thesis, a placement file documenting planning, activities and reflection in both placements, observation and rating by supervisors of performance while on placement., and oral examination by the external examiner (for a sample of students).
There is also a strong emphasis on self-assessment. Trainees are required to keep a Personal Learning Plan, in which they identify and monitor individual targets related to particular skills or bodies of knowledge. These are reviewed in regular appraisal meetings with their university tutor. Grading's of work are on a pass/fail basis. Summative assessment incorporates a formative element and trainees are asked to identify action points to address in the next piece of assessed work.

Careers

Training to become an Educational Psychologist (EP) in Scotland is undertaken over 3 years and consists of 2 separate stages.

Stage 1 involves studying for a Master of Science in Educational Psychology, which is a 2 year full time course, combining study with research and supervised placements.

On completion of the MSc in Educational Psychology, graduates progress to Stage 2 of their training - the Qualification in Educational Psychology (Scotland)(Stage 2). The Qualification is conferred by the British Psychological Society (BPS) on successful completion of one full time (or equivalent) year of supervised practice in the employment of a local authority psychological service and meeting the requirements as specified (for more information on the Qualification please refer to the BPS website).

From 1 July 2009, anyone wishing to practise as an educational psychologist in the UK must be registered with the regulatory body, the Health and Care Professions Council (HCPC). The Qualification has been approved by the HCPC, and Qualification holders are therefore eligible for registration as practitioner psychologists.

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This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert). As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to 'A' level and beyond. Read more

About the Course

This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert).

As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to 'A' level and beyond. To this end, the course aims to facilitate your transformation into a well-educated, well-trained, confident and motivated science educator.

Along with English and mathematics, science is one of the three compulsory subjects of the National Curriculum and since all pupils have to study a broad, balanced curriculum in science there is a demand for well-qualified and skilled science teachers. Most pupils entering secondary school are excited at the prospect of work, for the first time in a fully equipped laboratory, and secondary school science teachers have to build upon and sustain this interest for the subject.

To meet this challenge we need capable, skilled and enthusiastic teachers who are able to motivate young people and lead them to discover the wonders of science.

Aims

The Brunel Science Postgraduate Certificate (PGCE) is a M-level course with 60 credits that can contribute to further Master's level study in Education, subject to approval.

The course will equip you with the knowledge, understanding and skills necessary to teach science and the ability to:

-Demonstrate an understanding of the vital role of the teacher and the school in ensuring excellence in the educational experiences of young people
-Undertake professional practice which enables you to evidence the Teachers’ Standards which facilitate the award of Qualified Teacher Status
-Understand the relationships between Education and science within current national and government frameworks, and critically reflect on the impact of these in the work of schools and the educational experiences of young people
-Recognise the contribution that science as part of the whole school curriculum makes to the development of the individual learner and groups of learners
-Think critically about what it means to be scientifically educated and how this informs curriculum planning and design within the subject area
-Apply a thorough knowledge and understanding of science (Physics) National Curriculum to the planning of curriculum experiences for pupils in school
-Demonstrate competence and confidence in your ability to teach across the contexts for pupil learning in the mathematics National Curriculum range and content, applying principles of continuity and progression
-Use subject knowledge and relevant course specifications to plan and deliver the 14-16 curriculum including examination and vocational courses
-Demonstrate an understanding of the subject knowledge and specification requirements for the 16-19 curriculum
-Utilise a range of teaching strategies to meet the identified learning needs of a wide range of pupils
-Utilise a range of resources, including information and communication technology, to enhance pupil learning in physics
-Understand the importance of safe practice and safeguarding and apply these in working with young people both within and beyond lessons
-Use a wide range of class management strategies to maximise pupil learning
-Understand the principles of inclusion and apply these to ensure equality of opportunity for all pupils in the subject area
-Understand national frameworks for assessment within the subject area and use these to support the recording and analysis of data, and the subsequent use of this to plan the next phase of learning
-Raise the status of the subject area by demonstrating high standards of professionalism at all times
-Understand the crucial role of professional learning for the teacher, the pupils and schools.

Funding

Please follow this link https://www.getintoteaching.education.gov.uk/

Course Content

The course runs from early September through to late June. As you commence the training, your individual subject knowledge is assessed so that targeted improvements can be made throughout the year in areas that may be lacking. As the course continues, your time is spent alternating between University and school, with increasing time being spent in school as your experience develops. By the end of the course, if school placements and written M level assignments have been completed successfully you are awarded the title PGCE with recommendation for Qualified Teacher Status (QTS).

You will spend two thirds of your time teaching in Partnership schools. These are schools where we have established links and where a number of the science teachers working in them are past Brunel students. As your school experience begins, you will be attached to a mentor whose role involves guidance and management of your professional development. You will learn from observing and working alongside experienced teachers, particularly in the process of teaching your own classes (under supervision). The course has three blocks of school experience in two different schools, providing the opportunity to work in contrasting settings, whilst working towards the Teachers’ Standards (TA, 2012).

How is the University portion of the course organised?
Campus Sessions

Campus-based work relates theory to school practice, facilitating your maturity into an effective and reflective science teacher.

Sessions involve student teachers working together in small groups, developing the thinking and attributes needed to teach effectively in the classroom or laboratory.

Although campus sessions cover a wide range of foci, there is a particular emphasis on practical work, literacy and communication, science for all and digital technologies in line with the interests of the research-active science tutors. They experienced schoolteachers and have published widely in national and international journals.

Facilities

As a Brunel PGCE student teacher you will have access to a range of teaching rooms including a new, well-equipped laboratory, a well-resourced library which includes textbook schemes, teaching packs, videos and visual aids – as well as books, journals and e-journals appropriate to work at Master's level. You will also benefit from extensive computer facilities where you can familiarise yourself with the hardware and software available in schools.

Learning Atmosphere

University tutors are available to offer advice and support throughout the course. Campus sessions have a friendly, informal atmosphere as classes gel, and you will find yourself forging lasting professional and personal relationships with other student teachers on the course.

Disclosure and Barring Service (DBS) requirement

This course involves regular access to children and/or vulnerable adults. Where this is the case, students will be required to complete a Disclosure and Barring Service (DBS) application, previously known as a Criminal Records Bureau (CRB) check. The application will cost £51.86 (this amount may be subject to change) and the University will send further instructions as part of the admissions process. For further guidance please email .

Read more about the structure of postgraduate degrees at Brunel and what you will learn on the course:
http://www.brunel.ac.uk/courses/pg/postgraduate-taught-course-information/taught-programme-structure
http://www.brunel.ac.uk/__data/assets/pdf_file/0020/423902/PGCert-Secondary-Education-with-QTS.pdf

For more information on the Special Features of the course and Teaching and Assesment, please follow this link http://www.brunel.ac.uk/courses/postgraduate/pgce-secondary-education-science-with-physics

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The programme aims at preparing engineers to develop and use information technology tools so as to satisfy the widest variety of applications. Read more

Mission and Goals

The programme aims at preparing engineers to develop and use information technology tools so as to satisfy the widest variety of applications. Compared to the Bachelor of Science, Master of Science students acquire greater ability to model and solve complex problems, integrating different advanced skills and technologies. The programme comprises three tracks: Communication and Society Engineering, Sound and Music Engineering, Data Engineering.

The teaching language is English.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

Career Opportunities

The information technology engineer operates mainly in companies manufacturing and distributing information technology and robotics equipment and systems, companies providing products and services with a high information technology content, private organisations and public administration using information technology to plan, design, manage, decide, produce and administrate.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Computer_science_and_engineering_CO_01.pdf
The Master of Science programme in Computer Science and Engineering aims at training engineers able to develop and use information technology tools so as to satisfy the widest variety of applications. Four tracks are available, corresponding to four main cultural areas. The “Communication and Society Engineering” track focuses on the integration of computer science and communication skills, for designing, implementing, presenting and evaluating innovative multimedia applications. The methodologies for the management of data, such as data mining, pattern recognition, information retrieval, constitute the core of the “Data Engineering” track. The “ICT Engineering, Business and Innovation” track aims at building professional profiles that combine a solid computer science background with managerial capabilities, through a selection of computer science and management courses, integrated with a broad cross-disciplinary project, carried out in collaboration with companies and Management Engineering students and professors. Finally, the “Sound and Music Engineering” track (in collaboration with the “Giuseppe Verdi” Music Conservatory of Como) focuses on the concepts and processes that are behind generation, analysis, manipulation/ processing, transport, access, coding and rendering of audio and musical signals. The programme is taught in English.

Subjects

Key subjects available:
Multimedia Interactive Applications for Web and Mobile Devices, Computer Graphics and Applications, Advanced Software Engineering, Advanced Computer Architectures, Performance Evaluation of Computer Systems, Multimedia Information Retrieval, Multimedia Signal Processing, Sound Analysis, Synthesis and Processing, Electronics and Electroacoustic.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert). As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to ‘A’ level and beyond. Read more

About the Course

This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert).

As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to ‘A’ level and beyond. To this end, the course aims to facilitate your transformation into a well-educated, well-trained, confident and motivated science educator.

Along with English and mathematics, science is one of the three core subjects of the National Curriculum and since all pupils have to study a broad, balanced curriculum in science there is a demand for well-qualified and skilled science teachers. Most pupils entering secondary school are excited at the prospect of work, for the first time in a fully equipped laboratory, and secondary school science teachers have to build upon and sustain this interest for the subject.

To meet this challenge we need capable, skilled and enthusiastic teachers who are able to motivate young people and lead them to discover the wonders of science.

Aims

The Brunel Science Postgraduate Certificate (PGCE) is an M level course with 60 credits that can contribute to further Master's level study in Education, subject to approval. The course will equip you with the knowledge, understanding and skills necessary to teach science such that you are able to:

-Demonstrate an understanding of the vital role of the teacher and the school in ensuring excellence in the educational experiences of young people;
-Undertake professional practice which enables you to evidence the Teachers’ Standards which facilitate the award of Qualified Teacher Status;
-Understand the relationships between Education and science within current national and government frameworks, and critically reflect on the impact of these in the work of schools and the educational experiences of young people;
-Recognise the contribution that science as part of the whole school curriculum makes to the development of the individual learner and groups of learners;
-Think critically about what it means to be scientifically educated and how this informs curriculum planning and design within the subject area;
-Apply a thorough knowledge and understanding of the science (Biology) National Curriculum to the planning of curriculum experiences for pupils in school;
-Demonstrate competence and confidence in your ability to teach across the contexts for pupil learning in the mathematics National Curriculum range and content, applying principles of continuity and progression;
-Use subject knowledge and relevant course specifications to plan and deliver the 14-16 curriculum including examination and vocational courses;
-Demonstrate an understanding of the subject knowledge and specification requirements for the 16-19 curriculum;
-Utilise a range of teaching strategies to meet the identified learning needs of a wide range of pupils;
-Utilise a range of resources, including information and communication technology, to enhance pupil learning in biology;
-Understand the importance of safe practice and safeguarding and apply these in working with young people both within and beyond lessons;
-Use a wide range of class management strategies to maximise pupil learning;Understand the principles of inclusion and apply these to ensure equality of opportunity for all pupils in the subject area;
-Understand national frameworks for assessment within the subject area and use these to support the recording and analysis of data, and the subsequent use of this to plan the next phase of learning;
-Raise the status of the subject area by demonstrating high standards of professionalism at all times;
-Understand the crucial role of professional learning for the teacher, the pupils and schools.

Funding

Please follow this link https://www.getintoteaching.education.gov.uk/bursaries-and-funding

Course Content

The course runs from early September through to late June. As you commence the training, your individual subject knowledge is assessed so that targeted improvements can be made throughout the year in areas that may be lacking. As the course continues, your time is spent alternating between University and school, with increasing time being spent in school as your experience develops. By the end of the course, if school placements and written M level assignments have been completed successfully you are awarded the title PGCE with recommendation for Qualified Teacher Status (QTS).

You will spend two thirds of your time teaching in Partnership schools. These are schools where we have established links and where a number of the science teachers working in them are past Brunel students. As your school experience begins, you will be attached to a mentor whose role involves guidance and management of your professional development. You will learn from observing and working alongside experienced teachers, particularly in the process of teaching your own classes (under supervision). The course has three blocks of school experience in two different schools, providing the opportunity to work in contrasting settings, whilst working towards the Teachers’ Standards (TA, 2012).

How is the University portion of the course organised?
Campus-based work relates theory to school practice, facilitating your maturity into an effective and reflective science teacher. Sessions involve student teachers working together in small groups, developing the thinking and attributes needed to teach effectively in the classroom or laboratory. Although campus sessions cover a wide range of foci, there is a particular emphasis on practical work, literacy and communication, science for all and digital technologies in line with the interests of the research-active science tutors who are experienced schoolteachers and have published widely in national and international journals.

As a Brunel PGCE student teacher you will have access to a range of teaching rooms including a new, well-equipped laboratory, a well resourced library which includes textbook schemes, teaching packs, videos and visual aids – as well as books, journals and e-journals appropriate to work at Masters level – plus extensive computer facilities where you can familiarise yourself with the hardware and software available in schools.

University tutors are available to offer advice and support throughout the course. Campus sessions have a friendly, informal atmosphere as classes gel, and you will find yourself forging lasting professional and personal relationships with other student teachers on the course.

Disclosure and Barring Service (DBS) requirement

This course involves regular access to children and/or vulnerable adults. Where this is the case, students will be required to complete a Disclosure and Barring Service (DBS) application, previously known as a Criminal Records Bureau (CRB) check. The application will cost £51.86 (this amount may be subject to change) and the University will send further instructions as part of the admissions process. For further guidance please email

Read more about the structure of postgraduate degrees at Brunel:http://www.brunel.ac.uk/courses/pg/postgraduate-taught-course-information/taught-programme-structure

Read less
This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert). As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to ‘A’ level and beyond. Read more

About the Course

This is a Postgraduate Certificate of Education (PGCE) course, also known as Postgraduate Certificate (PG Cert).

As a qualified science teacher you may be required to teach National Curriculum general science to Key Stage 4, as well as your particular specialism to ‘A’ level and beyond. To this end, the course aims to facilitate your transformation into a well-educated, well-trained, confident and motivated science educator.

Along with English and mathematics, science is one of the three core subjects of the National Curriculum and since all pupils have to study a broad, balanced curriculum in science there is a demand for well-qualified and skilled science teachers. Most pupils entering secondary school are excited at the prospect of work, for the first time in a fully equipped laboratory, and secondary school science teachers have to build upon and sustain this interest for the subject.

To meet this challenge we need capable, skilled and enthusiastic teachers who are able to motivate young people and lead them to discover the wonders of science.

Aims

The Brunel Science Postgraduate Certificate (PGCE) is an M level course with 60 credits that can contribute to further Master's level study in Education, subject to approval. The course will equip you with the knowledge, understanding and skills necessary to teach science such that you are able to:

-Demonstrate an understanding of the vital role of the teacher and the school in ensuring excellence in the educational experiences of young people;
-Undertake professional practice which enables you to evidence the Teachers’ Standards which facilitate the award of Qualified Teacher Status;
-Understand the relationships between Education and science within current national and government frameworks, and critically reflect on the impact of these in the work of schools and the educational experiences of young people;
-Recognise the contribution that science as part of the whole school curriculum makes to the development of the individual learner and groups of learners;
-Think critically about what it means to be scientifically educated and how this informs curriculum planning and design within the subject area;
-Apply a thorough knowledge and understanding of the science (Chemistry) National Curriculum to the planning of curriculum experiences for pupils in school;
-Demonstrate competence and confidence in your ability to teach across the contexts for pupil learning in the mathematics National Curriculum range and content, applying principles of continuity and progression;
-Use subject knowledge and relevant course specifications to plan and deliver the 14-16 curriculum including examination and vocational courses;
-Demonstrate an understanding of the subject knowledge and specification requirements for the 16-19 curriculum;
-Utilise a range of teaching strategies to meet the identified learning needs of a wide range of pupils;
-Utilise a range of resources, including information and communication technology, to enhance pupil learning in chemistry;
-Understand the importance of safe practice and safeguarding and apply these in working with young people both within and beyond lessons;
-Use a wide range of class management strategies to maximise pupil learning;
-Understand the principles of inclusion and apply these to ensure equality of opportunity for all pupils in the subject area;
-Understand national frameworks for assessment within the subject area and use these to support the recording and analysis of data, and the subsequent use of this to plan the next phase of learning;
-Raise the status of the subject area by demonstrating high standards of professionalism at all times;
-Understand the crucial role of professional learning for the teacher, the pupils and schools.

Funding

Please follow this link https://www.getintoteaching.education.gov.uk/

Course Content

The course runs from early September through to late June. As you commence the training, your individual subject knowledge is assessed so that targeted improvements can be made throughout the year in areas that may be lacking. As the course continues, your time is spent alternating between University and school, with increasing time being spent in school as your experience develops. By the end of the course, if school placements and written M level assignments have been completed successfully you are awarded the title PGCE with recommendation for Qualified Teacher Status (QTS).

You will spend two thirds of your time teaching in Partnership schools. These are schools where we have established links and where a number of the science teachers working in them are past Brunel students. As your school experience begins, you will be attached to a mentor whose role involves guidance and management of your professional development. You will learn from observing and working alongside experienced teachers, particularly in the process of teaching your own classes (under supervision). The course has three blocks of school experience in two different schools, providing the opportunity to work in contrasting settings, whilst working towards the Teachers’ Standards (TA, 2012).

How is the University portion of the course organised?
Campus-based work relates theory to school practice, facilitating your maturity into an effective and reflective science teacher. Sessions involve student teachers working together in small groups, developing the thinking and attributes needed to teach effectively in the classroom or laboratory. Although campus sessions cover a wide range of foci, there is a particular emphasis on practical work, literacy and communication, science for all and digital technologies in line with the interests of the research-active science tutors who are experienced schoolteachers and have published widely in national and international journals.

As a Brunel PGCE student teacher you will have access to a range of teaching rooms including a new, well-equipped laboratory, a well resourced library which includes textbook schemes, teaching packs, videos and visual aids – as well as books, journals and e-journals appropriate to work at Masters level – plus extensive computer facilities where you can familiarise yourself with the hardware and software available in schools.

University tutors are available to offer advice and support throughout the course. Campus sessions have a friendly, informal atmosphere as classes gel, and you will find yourself forging lasting professional and personal relationships with other student teachers on the course.

Disclosure and Barring Service (DBS) requirement

This course involves regular access to children and/or vulnerable adults. Where this is the case, students will be required to complete a Disclosure and Barring Service (DBS) application, previously known as a Criminal Records Bureau (CRB) check. The application will cost £51.86 (this amount may be subject to change) and the University will send further instructions as part of the admissions process. For further guidance please email .

Read more about the structure of postgraduate degrees at Brunel: http://www.brunel.ac.uk/courses/pg/postgraduate-taught-course-information/taught-programme-structure

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The MSc in Computer Science is for graduates from a different discipline interested in a career in computer science. Computing underpins much of our professional and personal lives. Read more
The MSc in Computer Science is for graduates from a different discipline interested in a career in computer science.

Why study computer science with us?

Computing underpins much of our professional and personal lives. There is a growing need for individuals trained in one discipline who are also skilled in computer science.

If you are a graduate with a non-computing first degree then our MSc will:

- provide you with a sound foundation in practical and theoretical aspects of computer science
- help you change career, with skills desirable to a huge number of industries
- enhance your employability with transferable skills
- prepare you for PhD study

No prior background in computer science is necessary.

What will I learn?

Semester one offers a broad overview of computer science through a series of core units.

Semester two focusses on advanced and emerging areas of computer science. You will have the opportunity to specialise in one or more areas of the discipline.

The final semester is for your dissertation. You will:

- demonstrate the knowledge, skills and reflective insights you have have gained
- apply them to the investigation and/or development of new software systems.

Visit the Department of Computer Science (http://www.bath.ac.uk/comp-sci/) for further information on the department.

Visit the website http://www.bath.ac.uk/science/graduate-school/taught-programmes/msc-computer-science/index.html

Programme structure

The programme covers three semesters.

In the first semester we immerse students in the practical and theoretical foundations of the discipline.

In the second semester we build upon these foundations allowing students to specialise in one or more areas of the discipline.

The third semester is dedicated to a dissertation. Students combine their acquired knowledge to produce a novel software element or conduct novel research and critique their achievements. Please visit our research pages for a an overview of our research (http://www.bath.ac.uk/comp-sci/research/).

Career opportunities

Opportunities are extensive and we expect our graduates to move into computing careers in the leading:
- computer companies
- IT consultancy firms
- banks
- companies
- agencies
- educational establishments

About the department

The new Department of Computer Science began life in August 2001, emerging from the Computing Group of the Department of Mathematical Sciences. It is a research-led department with a strong record in interdisciplinary research and postgraduate teaching.

MSc
Our Masters programmes are designed to give you a wide range of knowledge so that you can build a career in the fast-moving industry of computing. The programmes are taught by recognised experts in each field, offering you, the student, a cutting-edge experience and a qualification which is both academic and commercially relevant. You will be exposed to the latest science and technology in your chosen specialist area, to complement previously-gained knowledge and skills from your undergraduate degree.

MPhil/PhD
The Department supports a strategic range of computer science research at PhD level and beyond. Our main research interests include Human Computer Interaction, Visual Computing, Mathematical Foundations, and Intelligent Systems. Research is pursued both in fundamental theoretical development and a range of application areas.

EngD in Digital Media
The Engineering Doctorate (EngD) in Digital Media is an alternative to the traditional PhD for students who want a career in industry. A four-year programme combines PhD-level research projects with taught courses, and students spend about 75% of their time working directly with a company.

Facilities and equipment
LAN and WAN, state-of-the-art HCI laboratory, audio laboratory.

International and industrial links
The Department has active collaborations with academics in leading universities in Europe, Australasia, the USA and Japan. Strong links with industry, e.g. HP labs, Airbus, Qinetiq, Westland, Toshiba and Vodafone.

Careers information
High employment records for undergraduate and postgraduate students. Good links with employers

Find out more about the department here - http://www.bath.ac.uk/comp-sci/

Find out how to apply here - http://www.bath.ac.uk/science/graduate-school/taught-programmes/how-to-apply/

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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/. Read more
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.

College-based work

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
assessment
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.

School-based work

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.

Institute of Physics Scholarships

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.

School Direct

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.

Additional costs

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.

Contact the department

If you have specific questions about the degree, contact Department of Educational Studies.

Department

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.

Teaching placements

We have partnerships with many London schools, offering you the chance to gain teaching practice in socially mixed, multi-ethnic urban classrooms.

Support

We offer a high level of support through a system of school and personal tutoring.

Research

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.

Learning & Teaching

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.

How to apply

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.

Funding

Please visit http://www.gold.ac.uk/pg/fees-funding/ for details.

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The PGCE Information Technology and Computer Science enables ICT & computing professionals and graduates to become effective teachers of computing (curriculum previously called ICT and now including a strong Computer Science element) in secondary schools. Read more
The PGCE Information Technology and Computer Science enables ICT & computing professionals and graduates to become effective teachers of computing (curriculum previously called ICT and now including a strong Computer Science element) in secondary schools. The programme emphasises learning through critical reflection on theory and practice and discussion with colleagues.

The programme combines the theory and practice of education which is why students spend 60 days in College and 120 days in schools. The course is research-led and you will develop your knowledge of how pupils learn; how assessment can improve learning and teaching; how to plan lessons, and how to make appropriate use of computers and the Internet to teach effectively. The programme emphasises learning through critical reflection on theory and practice and discussion with colleagues.

Key Benefits

- Our Programme, judged 'Outstanding' by Ofsted, is taught by one of the strongest team of computer science education tutors in the country.

- The programme at King's is challenging and students are encouraged to take a critical view of policies and practice.

- It is a sociable course where you will be expected to work with others, discussing issues and problems about teaching.

- You have the opportunity to work with tutors who are actively engaged in research and development in computer science education.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/pgce-information-technology-and-computer-science.aspx

Course detail

- Description -

The programme combines the theory and practice of education. We work in close partnership with schools in designing, delivering and assessing our course.

University based: You will work with other trainees and tutors in your subject area to consider the principles and practice of teaching your subject including curriculum design, the development of materials, classroom management and lesson planning. You will also work with trainees from other subjects in a programme of lectures and seminar groups to examine broad generic issues. During both secondary school placements there are occasional days in college for tutorials to support and monitor progress towards the standards for Qualified Teacher Status (QTS). There are cross-curricular research tasks and assignments.

School based: For 24 of the 36 weeks the training takes place in schools, mainly in two complementary secondary schools but with two short primary school experiences. This introduces you to recognising key constituents of good teaching, helps develop your own teaching skills and gain an understanding of how schools work and how children learn.

- Computer Science Subject Knowledge Enhancement (SKE) courses -

Our Subject Knowledge Enhancement courses are intensive and flexible programmes for graduates in IT/computing who want to teach computer science but whose degree is not a direct match or whose specialist subject knowledge needs deepening prior to training for qualified teacher status (QTS). King's College London in conjunction with Queen Mary College, University of London, has designed a 12-unit SKE programme for computer science funded by the National College for Teaching and Leadership.

In order to be eligible for SKE (for which you may also obtain a bursary) you need an offer of a place on one of the King's PGCE programmes: either computer science or information technology and computer science. At the PGCE interview we will assess your SKE needs and determine which units you should take. Our SKE courses are also open to candidates who have PGCE offers, conditional on SKE, from other institutions. The programme runs between April and September. Please note that it is not intended for graduates in non-IT disciplines who wish to retrain in computer science: for that we recommend a conversion MSc programme (eg http://www.eecs.qmul.ac.uk/postgraduates/programme/view/21).

- Course purpose -

Our programme is for computing/ICT specialists wishing to train to be teachers of pupils aged 11-18 in computing (previously called ICT) to GCSE level and information technology to A-level. A parallel programme, PGCE Computer Science, enables computer science specialists to train to be teach computer science to A-level. The programme will lead to the Department for Education's (HM Government) Standards for QTS which are assessed through teaching practice observation, portfolios and written assignments.

- Course format and assessment -

The 45-credit honours-level module will be assessed by a combination of a written portfolio (equivalent to 8,000 words) and assessment of your teaching practice against the teaching standards as set out by the government’s Department for Education. Progress in meeting the teaching standards will be monitored through three progress reports that will be completed by staff at the placement school.

The 30-credit master’s-level modules will each be assessed by an 8,000-word written assignment.

The 15-credit honours-level module will be assessed by a 4,000-word written assignment.

Career prospects

The majority of trainees go into teaching or other areas of education: many become heads of departments or members of senior management teams; some take up careers in educational administration in the advisory or inspection services.

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

About Postgraduate Study at King’s College London:

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

Scholarships & Funding:

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

Free language tuition with the Modern Language Centre:

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

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The course helps you develop the skills to communicate science effectively to a general audience. We’ll teach you about the latest topics in science and how to communicate these to the media and beyond. Read more

About the course

The course helps you develop the skills to communicate science effectively to a general audience. We’ll teach you about the latest topics in science and how to communicate these to the media and beyond. A major part of your studies will be writing for the media. In our newsroom, you’ll learn the principles of clear, compelling and concise storytelling. You’ll also work on a group project to plan, organise and deliver your own science exhibition.

Your career

The MSc puts you in an enviable position. Employers in science and technology, the medical and pharmaceutical industries, cultural industries, the science policy sector, education and the media will see your potential.

If you decide on a research career in science, your masters will enable you to communicate your own research effectively.

The course is now five years old. Our graduates have already gone on to careers in the pharmaceutical industry, with medical and educational charities, in a variety of science communication roles.

About us

This course is taught by experts from the faculties of science, social science and medicine, giving you access to world-leading scientists and media practitioners in the field of science communication and journalism. They include fertility expert Professor Allan Pacey who has considerable experience of TV and film, and Dr Louise Robson, a biomedical scientist who works with schools.

Our combined experience covers science communication via newspapers and magazines, radio and television, websites and social networks as well as writing articles and books.

Facilities

You’ll be based in the Science Communication Lab on the main University campus. Much of the practical work is done there and in the Department of Journalism Studies where you’ll have access to all the latest equipment for print, web and broadcast journalism.

Our print facilities include networked computers with Adobe Indesign, Incopy and Photoshop. For broadcasting we have access to radio and TV studios, digital TV editing suites and DV and HD camcorders. We also have multimedia and web authoring software including Dreamweaver and Adobe Premiere.

Core modules

Developing Communication Skills; Topical Science; Dissertation; Ethics and Regulation; Writing for the Media; Communicating with the Media; Online Journalism Studies; Research Methods.

Teaching and assessment

Research in science and journalism informs our teaching. There are lectures, tutorials and seminars. You’ll also do project work, attend masterclasses and go on placements. You’re assessed on coursework, essays, a portfolio, practical exercises and a dissertation.

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Our highly sought-after graduates benefit from a programme that integrates training in identifying, framing and effectively researching social problems with a leading computational approach to social science. Read more
Our highly sought-after graduates benefit from a programme that integrates training in identifying, framing and effectively researching social problems with a leading computational approach to social science.

Furthermore, we are home to the Centre for Research in Social Simulation (CRESS) and its world-leading expertise in agent-based modelling.

PROGRAMME OVERVIEW

Interest in simulation has grown rapidly in the social sciences. New methods have been developed to tackle this complexity. This programme will integrate traditional and new methods, to model complexity, evolution and the adaptation of social systems.

These new methods are having an increasing influence on policy research through a growing recognition that many social problems are insufficiently served by traditional policy modelling approaches.

The Masters in Social Science and Complexity will equip you to develop expertise in the methods necessary to tackle complex, policy-relevant, real-world social problems through a combination of traditional and computational social science methods, and with a particular focus on policy relevance.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time over two academic years. It consists of eight taught modules and a dissertation. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Data Analysis
-Field Methods
-Computational Modelling
-Theory Model Data
-Modelling the Complex World
-Policy Modelling
-Theory and Method
-Statistical Modelling
-Evaluation Research
-Dissertation

EDUCATIONAL AIMS OF THE PROGRAMME

The main aims of the programme are to:
-Provide an appropriate training for students preparing MPhil/PhD theses, or for 
 students going on to employment involving the use of social science and policy research
-Provide training that fully integrates social science, policy modelling and computational methodologies to a high standard
-Provide training resulting in students with high quality analytic, methodological, computational and communication skills

PROGRAMME LEARNING OUTCOMES
The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:
-Develop skills in tackling real world policy problems with creativity and sound methodological judgment
-Cover the principles of research design and strategy, including formulating research 
questions or hypotheses and translating these into practicable research designs and models
-Introduce students to the methodological and epistemological issues surrounding research in the social sciences in general and computational modelling in particular
-Develop skills in programming in NetLogo for the implementation of agent-based models for the modelling of social phenomena
-Develop skills in the acquisition and analysis of social science data
-Make students aware of the range of secondary data available and equip them to evaluate its utility for their research
-Develop skills in searching for and retrieving information, using library and Internet resources
-Develop skills in the use of SPSS, and in the main statistical techniques of data analysis, including multivariate analysis
-Develop skills in the use of CAQDAS software for the analysis of qualitative data
-Develop skills in writing, in the preparation of a research proposal, in the presentation ofresearch results and in verbal communication
-Help students to prepare their research results for wider dissemination, in the form of seminar papers, conference presentations, reports and publications, in a form suitable for a range of audiences, including academics, stakeholders, policy makers, professionals, service users and the general public

Knowledge and understanding
-Show advanced knowledge of qualitative, quantitative and computational methodologies in the social science
-Show advanced knowledge of modelling methodologies, model construction and analysis
-Show critical understanding of methodological and epistemological challenges of social science and computer modelling
-Show critical awareness and understanding of the methodological implications of a range of sociological theories and approaches
-Show understanding the use and value of a wide range of different research approaches across the quantitative and qualitative spectra
-Show advanced knowledge in data collection, analysis and data driven modelling
-Show advanced knowledge of policy relevant social science research and modelling
-Show advanced understanding of the policy process and the role of social science and modelling therein
-Show advanced knowledge of statistical modelling

Intellectual / cognitive skills
-Systematically formulate researchable problems; analyse and conceptualise issues; critically appreciate alternative approaches to research; report to a range of audiences
-Conceptual development of Social Science and Complexity models to creatively enhance the understanding of social phenomena
-Integration of qualitative, quantitative and computational data
-Judgement of problem-methodology match
-Analyse qualitative and quantitative data drawn both from ‘real world’ and ‘virtual world’ environments, using basic and more advanced techniques, and draw warranted conclusions
-Develop original insights, questions, analyses and interpretations in respect of research questions
-Critically evaluate the range of approaches to research

Professional practical skills
-Formulate, design, plan, carry out and report on a complete research project
-Use the range of traditional and computational techniques employed in sociological research
-Ability to produce well founded, data driven and validated computational models
-Generate both quantitative and qualitative data through an array of techniques, and select techniques of data generation on appropriate methodological bases
-Employ a quantitative (SPSS) and qualitative software package to manage and analyse data
-Plan, manage and execute research as part of a team and as a sole researcher
-Ability to communicate research findings models in social science and policy relevant ways
-Ability to manage independent research

Key / transferable skills
-Communicate complex ideas, principles and theories by oral, written and visual means
-Apply computational modelling methodology to complex social issues in appropriate ways
-Creativity in approaching complex problems and a the ability of communicating and justifying problem solutions
-Apply computing skills for computational modelling, research instrument design, data analysis, and report writing and presentation
-Work to deadlines and within work schedules
-Work independently or as part of a team
-Demonstrate experience of a work environment

PLACEMENTS

On the MSc Social Science and Complexity, we offer the opportunity to take a research placement during the Easter vacation. This will provide you with first-hand experience of real-life policy research in action.

Organisations in which placements might be possible are a number of consultancies (e.g. Sandtable), government departments (e.g. Defra) and academic research centres (e.g. Centre for Policy Modelling at Manchester).

CAREER OPPORTUNITIES

Computational methods and especially computer-based simulations, are becoming increasingly important in academic social science and policy making.

Graduates might find career opportunities in government departments, consultancies, government departments, consultancies, NGOs and academia.

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This course is designed to give you an in-depth knowledge of mathematics and science education, an understanding of curriculum development and policy, and real insight into effective classroom teaching. Read more
This course is designed to give you an in-depth knowledge of mathematics and science education, an understanding of curriculum development and policy, and real insight into effective classroom teaching. You will gain the practical skills and knowledge to make a positive contribution to science and mathematics education, both nationally and internationally.

What the course involves

The Master of Science (Science and Mathematics Education) comprises coursework units in science and mathematics education plus a minor project in an area relevant to your own teaching situation.

it provides you with a strong background in learning theory, curriculum development and in providing supervision. You will undertake advanced studies in science, mathematics and technology education, explore educational administration, and science and mathematics research methods.

Using relevant literature together with your own professional experience, you will also learn conceptual tools for exploring ways in which students understand course curricula.

Reasons to choose Curtin for this course

Curtin's Science and Mathematics Education Centre has an international reputation for excellence in research and development
You will experience a range of perspectives
It prepares you for a future leadership role in education.

Credit for previous study

Applications for recognition of prior learning (RPL) are assessed on an individual basis.

Other notes

The course coordinator will advise you on an appropriate mix of units depending upon your individual needs and circumstances.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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The course is one of the largest in the UK and one of only two programmes of its kind in Scotland, approved by the BPS. The MSc in Educational Psychology is designed to help you work effectively as an educational psychologist with young people, teachers, parents and other professionals. Read more

Why this course?

The course is one of the largest in the UK and one of only two programmes of its kind in Scotland, approved by the BPS.

The MSc in Educational Psychology is designed to help you work effectively as an educational psychologist with young people, teachers, parents and other professionals.

This course, together with the Stage 2 Qualification in Educational Psychology, (Scotland) from the British Psychological Society (BPS), meets the requirements for registration as an educational psychologist with the Health and Care Professions Council.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/educationalpsychology/

You’ll study

The course takes 24 months and is available on a full-time basis only. Entry is offered every two years, with an intake in September 2015, 2017 and so on.

There is a balanced mix of teaching and practical work in both years of the course. In the first year, you'll spend time:
- shadowing and observing
- carrying out practice-based assignments
- carrying out a collaborative group project

In the second year, the focus shifts to an 'apprenticeship' role. You’ll tackle the work of an educational psychologist under the supervision of your practice tutor. There’s also an individual project to complete.

Work placement

In Year 1, after an initial three-week block placement, trainee educational psychologists (TEPs) spend two days per week on placement with a local authority Psychological Service in Scotland, working on case studies and assignments. You’ll also work with children, young people and families across the key roles for an educational psychologist of consultation, assessment, intervention, training and research.

You’ll undertake three further two-week block placements: two in educational psychological services (one of which must be in Scotland but the second of which could be abroad) and the third in another form of community-based service (which, again, could be abroad).

Teaching staff

Our staff have had textbooks and papers on frameworks for educational psychology practice, assessment and implementation science, on the key reading lists of all educational psychology training programmes in the UK, contributing to international conferences.

Accreditation

The course is accredited by the British Psychological Society.
It’s a Stage 1 Qualification which allows graduates to undertake the Society’s Stage 2 Qualification in their first year of practice as probationers in Scotland.
This meets the requirements for registration as Practitioner Psychologist with the Health Care Professionals Council and allows you to work as an educational psychologist in the UK.

International students

Please note, this course is not available to international students.

Learning & teaching

We use the following teaching methods to develop academic and professional skills and knowledge:
- seminars/lectures/workshops
- practice-based assignments
- TEP presentations
- independent reading
- individual tutorials
- problem-based learning involving collaborative/peer-led working
- use of interactive computer technology

Individual tutorials are held three times each 10-week term, normally for 30 minutes, on dates specified in advance. They provide opportunities for discussion of practical issues arising from placements, clarification of questions arising from seminars and workshops and discussion of any administrative matters. Additional tutorials are available on request.

Teaching takes place in the University on Mondays and Tuesdays during term-time. You spend Thursdays and Fridays in your long-term placements with a psychological service. Wednesdays are study days.

Assessment

Academic learning outcomes are assessed through:
- 5,000 word term-time essays (6 in total across Years 1 & 2)
- Year 1 and Year 2 projects (each of 15,000 words)
- participation in seminars
- presentations (for example, on initial block placement and Spring and Summer short placements, case study and project
presentations) individual tutorials

Professional practice learning outcomes are assessed through:
- a practice workfile
- critical performance indicators (CPIs) for professional practice
- term-time assignments and problem-based learning
- Year 1 collaborative project and Year 2 individual project
- three-way meetings with TEPs, university and practice tutors

Careers

- How much will I earn?
Pay scales in Scotland are set by the Scottish Negotiating Committee for Teachers (SNCT).
Educational psychologists in Scottish local authorities earn in the region of £40,638 to £49,791. Senior and principal educational psychologists earn between £52,890 and £61,296.*

- Where are they now?
96.3% of graduates are in work or further study**

Job titles include:
- Educational Psychologist

Employers include:
- Local Authorities

*Information is intended only as a guide.

**Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

Find information Scholarships here http://www.strath.ac.uk/search/scholarships/

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This is a new strand of the PGCE Science where you will specialise in Physics. Students who successfully complete this route will be in a strong position to gain employment as teachers of Physics up to post-16 and general science at least to KS3 and possibly KS4. Read more
This is a new strand of the PGCE Science where you will specialise in Physics. Students who successfully complete this route will be in a strong position to gain employment as teachers of Physics up to post-16 and general science at least to KS3 and possibly KS4.

This course will attract bursaries from the Department for Education, for further information please visit the http://www.education.gov.uk.

The PGCE programme has been designed to train teachers to practice as a subject specialist teacher for the secondary age range (11-16). Trainees are assessed against the standards for Qualified Teacher Status (QTS) across the age range. Trainees will also often gain experience of the 16-18 age range, although they will not be formally assessed in this phase.

Course detail

The course is active and practical allowing trainees to develop professional competence through work undertaken in schools and in the University. Trainees work with young people, develop their expertise in their specialist subject area, share and discuss educational issues and study relevant educational research. The course is just the beginning of what we hope will be a process of continual professional development throughout a challenging and rewarding career.

Structure

The course is part of UWE's Department of Education's programme for Initial Teacher Training. Units studied are:

• Enabling Learning
• Meeting Curriculum Challenges
• Becoming a Teacher

These units are studied in both the school and the University-based parts of the course, the work on each site being complementary. The course centres on learning about the nature, content and teaching of all aspects of the science curriculum for 11-16 year olds and of specialist Physics for 14-19 year old eg. A level.

During your 12 weeks of study at the university, a range of aspects of teaching and learning of the Science curriculum will be addressed, e.g.
• Common misconceptions in Science
• Learning Science through out-of school trips and visits
• Supporting Numeracy and literacy through Science teaching
• Safety in Science lessons
• The nature of Science

Format

We will introduce you to a range of teaching styles, classroom management skills, lesson planning and assessment procedures both in the University and through classroom support from teachers in schools. You will consider strategies to support young people in their learning of science. You will also consider the use of a range of teaching styles and resources, including the appropriate use of information and communications technology (ICT)'

You will participate in sessions with other Physics graduates, and in mixed Science groups. You will also work with graduates from other disciplines where cross-curricular issues, such as learning theories and behaviour management are covered. If you have the knowledge and the passion to teach Science with Physics then this PGCE course is for you.

We recognise that embarking on a new course of study can sometimes be quite a challenging undertaking. You will have support from a number of staff in the university including; your group tutor, a personal tutor from you 14 - 19 specialism (Physics). Additionally any student can get support on a range of issues from a Department Student Adviser.

Placements

24 weeks are spent on placement: a total of eight weeks in one placement during the autumn term and 16 weeks in a second placement during the spring and summer.

As well as teaching, the programme includes contact time with a Senior Professional Tutor and a Subject Mentor, directed study time and personal study time.

There is an opportunity to spend time in a primary school and some students may also visit other institutions, such as special schools, science learning centres or colleges of further education.

Trainees in some placements also have the opportunity for a third placement during the final weeks of the course.

You will also be provided with opportunities to work in collaboratively with young people as a whole subject group or with other scientists.

Assessment

In order to pass the course, trainees are required to pass each unit. They are assessed on a number of written assignments and also on classroom practice against the standards specified by the Secretary of State for the award of Qualified Teacher Status (QTS) Before the end of the course it is recommended that trainees take the computer-based QTS skills tests in Numeracy, Literacy and ICT.

Careers / Further study

The Postgraduate Certificate in Education (PGCE) programmes now include 40 credits of assessment at Master's Level (Level M). For candidates who opt not to attempt the requisite credit at Level M, a Professional Graduate Certificate in Education will be available as an alternative award.

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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