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Teaching Science and Technology in the Early Years (3–7) celebrates young children’s amazing capabilities as scientists, designers and technologists. Research-based yet practical and accessible, it demonstrates how scientific designing and making activities are natural to young children, and have the potential for contributing to all aspects of their learning. By identifying the scientific and technological concepts, skills and activities being developed, the book enables the reader to make more focused diagnostic observations of young children and plan for how they can help move them forward in their learning. This third edition has been thoroughly updated and features: fresh insights into young children’s learning from neuroscience and ‘new-materialist’ perspectives; a UK-wide perspective on Early Years curricula and how they support the inclusion of science and technology as an entitlement for young children; new case studies of successful, evidence-based Early Years practice, alongside new examples of practical planning for learning, and advice on documenting children’s learning stories; an updated chapter on assessing and documenting children’s learning, drawing upon findings from the Teacher Assessment in Primary Science (TAPS) project at Bath Spa University. Based on the latest research and first-hand experience, this practical and accessible book is essential reading for Early Years and Primary students on undergraduate, PGCE and Masters-level courses.
Teaching Science and Technology in the Early Years (3-7) celebrates young children’s amazing capabilities as scientists, designers and technologists. Research-based yet practical and accessible, it demonstrates how scientific, designing and making activities are natural to young children, and have the potential for contributing to all aspects of their learning. By identifying the scientific and design-related concepts, skills and activities being developed, the book enables the reader to make more focused diagnostic observations of young children and plan for how they can help move them forward in their learning. This second edition has been thoroughly updated and features: Six new chapters providing practical advice and examples for enhancing scientific and technological learning through thematic approaches a new chapter focusing on the outdoor learning environment and how this can support science and technology new case studies of successful early years practice, alongside examples of practical planning for learning, and advice on documenting children’s learning stories, guidance on the role of talk, narrative, documentation and planning in relation to early years science and technology Based on the latest research and the first hand experience, this practical and accessible book is essential reading for early years and primary students on undergraduate and Masters level courses.
This practical and accessible book explores ways of developing continuity and coherence in children's learning from three to seven years old. It is based around three case studies in which tutors on Initial Teacher Training courses worked with early years practitioners in three different pre-school settings, each linked to a primary school. The book describes how they successfully managed to plan and teach integrated themes across the age-range in the context of the requirements of the Foundation Stage and the National Curriculum. Each case study has a different focus: * science, design and technology *' the arts' - including an ICT strand * 'the humanities' - including a physical education strand English and mathematics dimensions run through each theme.The book is alive with discussion of children's art, language, drama and music, captured as field notes, writing, drawing, and as video tape. Each chapter concludes with suggestions of ways in which readers can develop the ideas in their own contexts. This book will be invaluable reading for students on Early Years courses, Early Years practitioners, and tutors and mentors in early childhood education.
The educational provision for early years is growing and changing across many parts of the world, not least in the UK. While this book leans heavily on the mounting literature on early child development in its broadest sense – physically, emotionally, linguistically – its central focus lies squarely on the growth of children’s scientific thinking and activities. Written by educators, this book is based both on formal educational research and professional practice-in-action. The authors describe children’s science concept development; their curiosity-driven exploration; emergent ecological literacy; their learning through science play; the assessment of early learning; the role of parents and practitioners within early education contexts; and some question the very basis of the science being taught. Illustrations and examples of practice are not confined to the UK, though the messages to be derived from each chapter have application way beyond the immediate context. This book was originally published as a special issue of Early Child Development and Care.
This fully updated fourth edition of the bestselling textbook Science 5-11 provides a comprehensive introduction to current research and professional practice for teaching science in the primary school. Chapters are organised into five sections, first introducing theory and practice, then providing specific guidance on teaching topics in biology, chemistry and physics, and finally discussing supporting science across the whole school. Updates to the new edition include: Responding to recent changes in the Initial Teacher Education framework, discussion about cognitive science is integrated more fully throughout. Supporting all children's engagement in science by suggesting inclusive and creative ways of building and consolidating knowledge including making connections between topics and with the wider world. New discussion on planning to support pupil progression in scientific knowledge throughout their time at primary school, building on Early Years and preparing for transition to secondary school. Presenting current research and outlining guidance on best practice, Science 5-11 provides a guide to the subject knowledge, curriculum requirements and pedagogical techniques to successfully teach science within the primary school.
How can you unlock your own creativity to help children learn science creatively? How do you bring the world of ‘real science’ into the classroom? Where does science fit in a creative curriculum? This second edition of Teaching Science Creatively has been fully updated to reflect new research, initiatives and developments in the field. It offers innovative starting points to enhance your teaching and highlights curiosity, observation, exploration and enquiry as central components of children’s creative learning in science. Illustrated throughout with examples from the classroom and beyond, the book explores how creative teaching can harness children’s sense of wonder about the world around them. With easily accessible chapters, it offers a comprehensive introduction to the core elements of creative science learning, supporting both teacher and child in developing scientific concepts and skills. The book explores key issues such as: • the links between scientific and creative processes • how to teach creatively, and for creativity • the role of play in early scientific learning • developing scientific understanding through drama (new) • using the outdoors in science • how theories of learning relate to children’s creative development • teaching science topics in innovative and creative ways – games, drama, role play, puppets, mini-safaris and welly walks! Stimulating and accessible, with contemporary and cutting-edge practice at the forefront, Teaching Science Creatively introduces fresh ideas to support and motivate both new and experienced primary teachers. It is an essential purchase for any professional who wishes to incorporate creative approaches to teaching science in their classroom.
This book provides a fresh perspective on recent debates around integrating STEAM (Science, Technology, Engineering, Arts, and Mathematics) education in early childhood. The book offers inspiration and practical advice for educators and researchers. It suggests concrete ways to engage young children in STEAM learning activities and promote their development. With contributions from international experts, the book discusses how to develop age-appropriate STEAM learning activities for young children. Divided into four parts, the book covers a wide range of topics, including the perceptions and practices of STEAM education among early childhood teachers in different countries, the use of new pedagogies and technologies to promote equitable and accessible STEAM education, the role of teacher education and policy in reducing inequality in STEAM education, and how early STEAM education can promote social change and achieve sustainable development goals. The book highlights the importance of STEAM education in providing young children with the necessary skills to create a more sustainable and equitable world. Overall, this book provides an important contribution to help critique and improve how early childhood educators view and practice STEAM education across cultures. It proposes ideas for achieving sustainable development goals through high-quality early STEAM education. The book appeals to early childhood educators and researchers, as it draws on cross-cultural viewpoints to critically examine how teachers understand and implement STEAM education across different cultures along with exploring how cultural values and goals shape early STEAM education.
This edited book provides an overview of unstructured and structured play scenarios crucial to developing young children’s awareness, interest, and ability to learn Science, Technology, Engineering and Mathematics (STEM) in informal and formal education environments. The key elements for developing future STEM capital, enabling children to use their intuitive critical thinking and problem-solving abilities, and promoting active citizenship and a scientifically literate workforce, begins in the early years as children learn through play, employing trial and error, and often investigating on their own. Forty-seven STEM experts come together from 16 countries (Argentina, Australia, Belgium, Canada, England, Finland, Germany, Israel, Jamaica, Japan, Malta, Mauritius, Mexico, Russia, Sweden, and the USA) and describe educational policies and experiences related to young learners 3–4 years of age, as well as students attending formal-nursery school, early primary school, and the early years classes post 5 years of age. The book is intended for parents seeking to provide STEM activities for their children at home and in playgroups, citizen scientists seeking guidance to provide children with quality educational activities, daycare practitioners providing educational structures for young children from birth to formal education, primary school teachers and preservice teachers seeking to teach preschool, kindergarten or children typically aged 5–8 years old in grades 1–3, as well as researchers and policy makers working in science didactics with small children.
This third edition of the bestselling textbook Science 5–11 has been fully updated to provide a synthesis of research and best practice in teaching and learning that focuses on successful ways to engage and motivate young scientists. Responding to the new curriculum, particularly ‘Working Scientifically’, this edition now includes: New sections on whole-school assessment, mentoring, transitions and a topics-based approach. Reference to the ‘big ideas’ of biology, chemistry and physics with chapters clearly related to this new subject structure. Updated tables of progression in each topic area and reference to cross-curricular contexts. New self-assessment questions for teachers, the option for higher-level thinking and further reading. An updated chapter on subject leadership with an increasing emphasis on monitoring progress. Bringing together research undertaken from a range of activities in the field, this book forms a comprehensive and clear guide, outlining the subject knowledge that a teacher needs, the curriculum requirements and the best ways to go about teaching. A practical guide ideal for students, trainees, mentors and other practising teachers, the book provides information on appropriate science topics for Key Stage 1 and 2.
This practical text seeks to answer such questions as how young children learn science, design and technology and how they can be supported to develop these skills. It gives advice on providing a learning environment and recognising needs.