PROMOTING AN INTEGRATED APPROACH TO STEM EDUCATION WITHIN INITIAL TEACHER EDUCATION.

Slides:

Advertisements

Similar presentations

Second Information Technology in Education Study (SITES) A Project of the International Association for the Evaluation of Educational Achievement (IEA)

Advertisements

National Academy of Engineering of the National Academies 1 Phase II: Educating the 2020 Engineer Phase II: Adapting Engineering Education to the New Century...

Image: An undergraduate technology student from Education Faculty with S2 pupils at a workshop on semiconductor technology A new scheme for session

Being explicit about learning Focusing feedback on improvement Gathering evidence of learning Handing on responsibility for learning Participation Dialogue.

Developing Curriculum for Excellence: A Local Authority Perspective Andrew Griffiths Head of Education Aberdeenshire Council.

Planning for Numeracy Across Learning within STEM (STEM disciplines - Science, Technologies, Engineering and Mathematics)

Responsibility of all Literacy Numeracy Health and Wellbeing.

James McFarlane School Building our Curriculum. James McFarlane School The school meets the needs of pupils from 5 to 19 years with severe and complex.

14-19 education and skills Diplomas and curriculum change Reforms.

Mathematics matters – the international perspective December 2013 Lorna Bertrand Head of International Evidence & Partnerships

Intercultural Education Strategy Lóchrann, Coláiste Mhuire MIE.

EAC HIGHER EDUCATION POLICY

Innovation Strategy for Education and Training: the general framework Stéphan Vincent-Lancrin OECD/CERI OECD/France Workshop, May 2011.

Strategic Renewal Plan Goal: Maintain a strong Christian community where spiritual growth of all members is fostered.

RE and the new primary curriculum. “RE has an important role in preparing children for adult life, employment and lifelong learning. It enables them to.

Educational Teams: Variation at McGill Teaching in a different way Lynn McAlpine McGill University Canada

Research and Impact The WaterBotics ® evaluation and research studies include two synergistic, but distinct, domains: educational impact and scale-up/sustainability.

A Curriculum for Excellence Holyrood R. C. Sec

Glengormley Integrated Primary School The Northern Ireland Curriculum.

Curriculum for Excellence in Ardnahoe Nursery School.

Why? Science Technology Engineering Mathematics. Imagine our world…….. ….without aeronautical engineers.

CEIAG/STEM Teacher Placement Briefing. Expected Outcomes By the end of the day participants will have: an understanding of the STEM agenda an understanding.

NCETM AIM - to facilitate, enhance and provide leadership for all aspects of mathematics CPD for teachers in schools (primary and secondary) and colleges.

Be a Part of Something Great! Learning Communities at Wayne State.

School and Physical Education Aims: Understand why PE is taught in schools Be aware of the PESSCL and PESSYP strategies and the impact their implementation.

Maths matters: the Northern Ireland experience Katrina Godfrey Department of Education.

Using technology to improve learning Stella BurtonBeaumont Community Primary school1.

Arts Education within Curriculum for Excellence Engage Scotland Conference Pam Slater CfE Engagement Team 31 October 2007.

GeSCI-MINEDUC Partnership 13th May 2010 Conference Room, National Curriculum Development Centre (NCDC) Focus Group Discussion ICT Teacher Professional.

Maggie Spence Tuesday 1 st September 2009 Dunrossness PrimarySchool Quality Improvement Officer.

1 A proposed skills framework for all 11- to 19-year-olds.

Curriculum for Excellence Head of Quality & Curriculum

Margaret J. Cox King’s College London

Johnstone High School 13 th June SCOTTISH GOVERNMENT CfE TIMELINE SQA REVIEW COUNCIL PLAN SERVICE PLAN SCHOOL REALITIES.

University of Strathclyde Faculty of Education A long history in the field of teacher education (Early Years, Primary and Secondary) and the graduate training.

Primary and Secondary National Strategies © Crown copyright 2006 Renewing the frameworks – Day 3 0.

Learning within Teaching What professors can learn about their students and themselves as teachers when they innovate in their teaching ANABELLA MARTINEZ,

Contextualising experiences and linking learning with the home Building on learners existing knowledge understanding and skills and engaging learners in.

Connecting Teachers Can there be models of effective practice for teachers with ICT? Chair: Christine Vincent, Becta Presenter: Margaret Cox King’s College.

Strathkinness Primary School An introduction to the Curriculum for Excellence – 24 th March 2010 (Revised March 30 th 2010 with new links added)

Get Newswise Science-related news reports play an important role in informing and influencing public understanding. Young people should be equipped to.

New Opportunities The new Secondary Curriculum: A curriculum for the future.

CEIAG STEM. Why? Science Technology Engineering Mathematics.

Introductions O A warm welcome to all Comenius partners from the British team: O Andy Marshall.

A Curriculum for Excellence Routes for Learning study day February 2007 Jessie Wojciechowski Professional Adviser.

A Focus on Health and Wellbeing Wendy Halliday Learning and Teaching Scotland.

Trends and Issues in ICT by Anthea. Today’s Focus Our Topic: Using ICT to support Primary Mathematics and Numeracy Learning Aim: To investigate what other.

George Smuga 21/22 October, 2008 Seo e Feuch e Professional Adviser, Curriculum Division, Scottish Government.

Buckstone Primary School School Improvement Plan Summary A copy of the full Standards and Quality Report and the full Improvement Plan are available on.

Parents Information Evening Northern Ireland Curriculum.

NOVA Evaluation Report Presented by: Dr. Dennis Sunal.

Dunblane Nursery Curriculum Evening Learning through play

What is Creativity? “Creativity is a process which generates ideas that have value to the individual. It involves looking at familiar things with a fresh.

Knowledge building in the 21 st century at The Geelong College: Information-to-Knowledge Continuum “As we increasingly move toward an environment of instant.

Course, Curriculum, and Laboratory Improvement (CCLI) Transforming Undergraduate Education in Science, Technology, Engineering and Mathematics PROGRAM.

The Teacher- Child Interaction Linking Developmentally Appropriate Practices to the Characteristics of Effective Instruction.

© Crown copyright 2006 Renewing the Frameworks Enriching and enhancing teaching and learning.

Culturally Relevant Inspiration EFU 692 CREATIVITY, CULTURE, AND GLOBAL CONTEXTS IN EDUCATION DECISION MAKING INSTRUCTOR: THINH NGUYEN MONICA THOMPSON.

1 Embracing Math Standards: Our Journey and Beyond 2008.

Coding Connections at the Interface of Algebra I and Physical World Concepts Improving Teacher Quality Grant Program Summer 2016.

Building Our Curriculum Louise Turnbull Head Teacher Livingston Village Primary School All for the children, for all of the children!

Personalisation and Choice in the Broad General Education

Learning Environments

BOB Towards a Thinking School The Projects:

Interdisciplinary learning (primary version)

Planning (secondary version)

SECTOR PRIORITIES AND OUTCOMES

Interdisciplinary learning (secondary version)

Skills for Learning, Life and Work

Seminar on the Evaluation of AUT STEM Programme

Presentation transcript:

PROMOTING AN INTEGRATED APPROACH TO STEM EDUCATION WITHIN INITIAL TEACHER EDUCATION

INTEGRATED STEM EDUCATION? WHAT DOES THIS TERM MEAN? Integrative STEM education refers to technological/engineering design-based learning approaches that intentionally integrate the concepts and practices of science and/or mathematics education with the concepts and practices of technology and engineering education. Integrative STEM education may be enhanced through further integration with other school subjects, such as languages, social studies, art, etc. (Sanders & Wells, 2006).

INTEGRATED STEM EDUCATION A philosophical underpinning of programs that integrate the STEM domains is the learning of concepts in one domain, such as science or technology, that will facilitate the learning of concepts in other domains, such as mathematics or engineering. (Dixon and Brown, 2012)

WHAT ARE THE CHALLENGES? Silo approach to teaching Timetabling Staff Pedagogy

TRADITIONAL SILO METHOD OF TEACHING SCIENCE TECHNOLOGY ENGINEERING MATHS

WHICH APPROACH MIGHT BE SUITABLE?

A TYPICAL SECONDARY SCHOOL TIMETABLE

STAFF SENSITIVITIES I am a Maths teacher- period!

PEDAGOGICAL APPROACHES MULTIDISCIPLINARY EMBEDDED APPROACH INTERDISCIPLINARY

PEDAGOGICAL APPROACHES The Multidisciplinary Integration approach is about linking content from discrete subjects The Interdisciplinary Integration approach is more about enabling students to problem solve using both the content and skills from a variety of subject fields

PEDAGOGICAL APPROACHES INTERACTION APPROACH: This approach relates more to fostering inter curricular links between subjects, as opposed to integration.

STIMULA PROJECT The Hyrdro-Electric Turbine project was an example of where opportunities for STEM teaching were obvious. However all the challenges mentioned to date were in evidence:

ST MARYS UNIVERSITY COLLEGE, BELFAST. St Marys continues to pursue the further development of the integrative STEM education model and also seeks out opportunities to participate in associated research activity with other institutions both at a local and at an international level. (Strategy 21, p )

ST MARYS UNVERSITY COLLEGE, BELFAST WHAT DID WE DO?

STEM WORKING GROUP The first action we took as a College was to create a STEM working group. This consists of colleagues from the following disciplines: Science Technology Mathematics Information Communication Technology Art and Design All of the above disciplines relate to teaching in post-primary schools i.e. pupils aged years of age. STEM Working Group

STEM WORKING GROUP One of the first proposals for the SWG to consider was the formation of a: STEM EDUCATION RESEARCH CENTRE.

STEM EDUCATION RESEARCH CENTRE Proposed Mission Our mission is to effectively promote integration in the areas of Science, Technology, Engineering and Mathematics (STEM) within an educational context to improve childrens and young peoples confidence and competence in STEM. This mission is based on the belief that there is a need to empower school leavers to become both dynamic and innovative contributors to society through the study and application of STEM. Integrated STEM education is broadly defined as the collaborative teaching and learning of science, technology, engineering and mathematics. This entails sharing ideas and resources that have the potential to contribute towards enhancing childrens and young peoples educational experiences and achievements. This work in on-going and it will take time to formulate a working model for STEM pedagogy which can then be piloted in the College.

ST MARYS UNIVERSITY COLLEGE, BELFAST. The primary school scenario (5-11 year old pupils) is somewhat different: Single teacher No separate subject departments A more flexible timetable A holistic curriculum consisting of the following areas: Literacy and Numeracy, Mathematics and Numeracy, PDMU, The Arts, The World Around Us, Physical and Religious Education. STEM is thought to be particularly relevant to the areas of Mathematics and Numeracy and The World Around Us.

ST MARYS UNIVERSITY COLLEGE, BELFAST St Marys has decided to pursue the following project with 90 local primary schools and upwards of 2000 pupils in Northern Ireland. This project is being developed in partnership with SENTINUS which is a not for profit educational charity. The project is now in its 3 rd year and has attracted £80,000 funding from the Department of Education for Northern Ireland for The STEM Smart Gear Project.

ST MARYS UNIVERSITY COLLEGE, BELFAST The Smart Gear project will be jointly managed by St Marys and SENTINUS. St Marys University College will produce all the STEM related teaching materials which include the following:

STEM SMART GEAR PROJECT 500 desk mounted head sensitive fans

STEM SMART GEAR PROJECT 500 LIGHT SENSITIVE MODEL CARS

STEM SMART GEAR PROJECT 300 MIRCO-ROBOTS AND ASSAULT COURSES

NORTHERN IRELAND MINISTER OF EDUCATION SHARING SMART GEAR OUTCOMES WITH PUPILS

STEM SMART GEAR PROJECT All the hardware resources ( fans, cars, micro-bots etc.) will be prepared by the Design and Technology undergraduates of St Marys University College All the teaching/pedagogical resources will be prepared by the academic staff from the Science, Technology and Design, Maths and ICT departments of St Marys University College The STEM Smart Gear project will be delivered by first year undergraduate students from 3 ITE providers in Northern Ireland. These are St Marys University College, Stranmillis University College and University of Ulster

STEM SMART GEAR PROJECT The undergraduates will be working with the various teachers in the 90 primary schools to deliver the project.. The undergraduates will be from various subject disciplines (Technology, Maths, Science and others). One of the objectives is to enable these undergraduates to have experience of teaching within an integrated STEM model.

STEM SMART GEAR PROJECT St.Marys University College hopes to carry out research with the aim of investigating the impact of this model of integrated STEM teaching within the 90 primary schools St Marys University College will continue with further development of the integrated STEM education model.