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.

Young children are intuitive, emergent scientists - they observe, raise hypotheses, experiment and notice patterns. Most of our everyday actions at home and in other settings, inside and outside, have a scientific basis and it is through these early experiences that children formulate their ideas about the world in which we live. This accessible book introduces the simplest form of the principles and the big ideas of science and provides a starting point for encouraging children to have an interest and experiential understanding of basic science and engineering. It shows you how you can support young children in exploring everyday phenomena and develop their scientific language skills through readily available resources and hands-on experiences. Each chapter focuses on a different aspect of science and includes: a summary of the 'big ideas' to refresh your own scientific knowledge; numerous activities that encourage young children to observe, question and carry out their own investigations; a usefil list of everyday resources and relevant vocabulary. Providing a wealth of exciting, meaningful ways to promote scientific experiences and learning, this highly practical book will help you to build on children's natural curiosity about the world and develop their understanding through your everyday provision in early years settings and at home.

This book focuses on socio-cultural issues and the potential of using dioramas in museums to engage various audiences with - and in - contemporary debates and big issues, which society and the natural environment are facing, such as biodiversity loss. From the early 1900s, with the passage of time and changes in cultural norms in societies, this genre of exhibits evolved in response to the changes in entertainment, expectations and expressed needs of museum visitors. The challenge has always been to provide meaningful, relevant experiences to visitors, and this is still the aim today. Dioramas are also increasingly valued as learning tools. Contributions in this book specifically focus on their educational potential. In practice, dioramas are used by a wide range of educational practitioners to assist learners in developing and understanding specific concepts, such as climate change, evolution or or conservation issues. In this learning process, dioramas not only contribute to scientific understanding and cultural awareness, but also reconnect wide audiences to the natural world and thereby contribute to the well-being of societies. In the simultaneously published book: "Natural History Dioramas - Traditional Exhibits for Current Educational Themes, Science Educational Aspects" the editors discuss the history of dioramas and their building and science learning aspects, as well as current developments and their place in the visitor experience.

This book brings together in a unique perspective aspects of natural history dioramas, their history, construction and rationale, interpretation and educational importance, from a number of different countries, from the west coast of the USA, across Europe to China. It describes the journey of dioramas from their inception through development to visions of their future. A complementary journey is that of visitors and their individual sense making and construction of their understanding from their own starting points, often interacting with others (e.g. teachers, peers, parents) as well as media (e.g. labels). Dioramas have been, hitherto, a rather neglected area of museum exhibits but a renaissance is beginning for them and their educational importance in contributing to people's understanding of the natural world. This volume showcases how dioramas can reach a wide audience and increase access to biological knowledge.

Founded on the premise that zoos are 'bilingual'-that the zoo, in the shape of its staff and exhibits, and its visitors speak distinct languages-this enlightening analysis of the informal learning that occurs in zoos examines the 'speech' of exhibits and staff as well as the discourse of visitors beginning in the earliest years. Using real-life conversations among visitors as a basis for discussion, the authors interrogate children's responses to the exhibits and by doing so develop an 'informal learning model' and a 'zoo knowledge model' that prompts suggestions for activities that classroom educators can use before, during, and after a zoo visit. Their analysis of the 'visitor voice' informs creative suggestions for how to enhance the educational experiences of young patrons. By assessing visitors' entry knowledge and their interpretations of the exhibits, the authors establish a baseline for zoos that helps them to refine their communication with visitors, for example in expanding knowledge of issues concerning biodiversity and biological conservation. The book includes practical advice for zoo and classroom educators about positive ways to prepare for zoo visits, engaging activities during visits, and follow-up work that maximizes the pedagogical benefits. It also reflects on the interplay between the developing role of zoos as facilitators of learning, and the ways in which zoos help visitors assimilate the knowledge on offer. In addition to being essential reading for educators in zoos and in the classroom, this volume is full of insights with much broader contextual relevance for getting the most out of museum visits and field trips in general.

Founded on the premise that zoos are 'bilingual'-that the zoo, in the shape of its staff and exhibits, and its visitors speak distinct languages-this enlightening analysis of the informal learning that occurs in zoos examines the 'speech' of exhibits and staff as well as the discourse of visitors beginning in the earliest years. Using real-life conversations among visitors as a basis for discussion, the authors interrogate children's responses to the exhibits and by doing so develop an 'informal learning model' and a 'zoo knowledge model' that prompts suggestions for activities that classroom educators can use before, during, and after a zoo visit. Their analysis of the 'visitor voice' informs creative suggestions for how to enhance the educational experiences of young patrons. By assessing visitors' entry knowledge and their interpretations of the exhibits, the authors establish a baseline for zoos that helps them to refine their communication with visitors, for example in expanding knowledge of issues concerning biodiversity and biological conservation. The book includes practical advice for zoo and classroom educators about positive ways to prepare for zoo visits, engaging activities during visits, and follow-up work that maximizes the pedagogical benefits. It also reflects on the interplay between the developing role of zoos as facilitators of learning, and the ways in which zoos help visitors assimilate the knowledge on offer. In addition to being essential reading for educators in zoos and in the classroom, this volume is full of insights with much broader contextual relevance for getting the most out of museum visits and field trips in general.

This inspiring text celebrates young children as 'emergent biologists' and explains how their natural inquisitiveness and curiosity can be harnessed to increase early understanding of scientific concepts, and so lay the foundations for future learning about the living world. Full of practical tips, suggested discussion points and hands-on activities, Emerging Biology in the Early Years is a uniquely child-focussed resource. Chapters provide key information on the physical environment, including weather phenomena and soils, plants, animals and human development, and prioritise the child's perspective to offer activities which are in line with their natural development, thereby provoking discussion, problem-solving and child-led investigations. From planting seeds, to classifying rocks, flowers and animals, to understanding growth processes and recognising anatomical features, this book takes a holistic approach to science which moves beyond the confines of the curriculum and the classroom and shows how biology can be taught in a fun, engaging and inexpensive way both at home and in the early years setting. Providing a rich collection of ideas, activities, and downloadable sheets, this will be an invaluable resource for early years practitioners and parents looking to develop young children's scientific skills and understanding.

This inspiring text celebrates young children as 'emergent biologists' and explains how their natural inquisitiveness and curiosity can be harnessed to increase early understanding of scientific concepts, and so lay the foundations for future learning about the living world. Full of practical tips, suggested discussion points and hands-on activities, Emerging Biology in the Early Years is a uniquely child-focussed resource. Chapters provide key information on the physical environment, including weather phenomena and soils, plants, animals and human development, and prioritise the child's perspective to offer activities which are in line with their natural development, thereby provoking discussion, problem-solving and child-led investigations. From planting seeds, to classifying rocks, flowers and animals, to understanding growth processes and recognising anatomical features, this book takes a holistic approach to science which moves beyond the confines of the curriculum and the classroom and shows how biology can be taught in a fun, engaging and inexpensive way both at home and in the early years setting. Providing a rich collection of ideas, activities, and downloadable sheets, this will be an invaluable resource for early years practitioners and parents looking to develop young children's scientific skills and understanding.

Young children are intuitive scientists. This book builds on their inherent curiosity and problem solving as they move forward in their scientific thinking. Science develops from early beginnings and a solid foundation in the early years is essential for their future learning and engagement with the subject. Starting Inquiry Based Science in the Early Years shows you how you can support children's emerging scientific skills by working with them and scaffolding their inquiries as they experiment, hypothesise and investigate building on their natural curiosity. Full of practical advice, it offers a wide range of scientific activities that can be carried out in partnership with young children. Each activity presents a challenge for the child to solve by thinking and talking through their ideas and then carrying out their own investigations. This invaluable guide focuses on helping children to follow their own line of inquiry and supporting them in mastering the skills and vocabulary they need in order to do this. Features include: An explanation of the key skills children need to acquire and practical ideas for developing these; Useful lists of relevant vocabulary and everyday resources; Cue questions to encourage children's thinking skills; Cross-curricular links to show how the activities support early literacy and mathematics. Providing a rich bank of resources for promoting scientific experiences and learning, this highly practical book will help you ensure that the children in your care have the strong foundations they need to become confident, successful scientists in the future.

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 book presents the history of natural history dioramas in museums, their building and science learning aspects, as well as current developments and their place in the visitor experience. From the early 1900s, with the passage of time and changes in cultural norms in societies, this genre of exhibits evolved in response to the changes in entertainment, expectations and expressed needs of museum visitors. The challenge has always been to provide meaningful, relevant experiences to visitors, and this is still the aim today. Dioramas are also increasingly valued as learning tools. Contributions in this book specifically focus on their educational potential. In practice, dioramas are used by a wide range of educational practitioners to assist learners in developing and understanding specific concepts, such as climate change, evolution or or conservation issues. In this learning process, dioramas not only contribute to scientific understanding and cultural awareness, but also reconnect wide audiences to the natural world and thereby contribute to the well-being of societies. In the simultaneously published book: "Natural History Dioramas - Traditional Exhibits for Current Educational Themes, Socio-cultural Aspects" the editors focus on socio-cultural issues and the potential of using dioramas to engage various audiences with - and in - contemporary debates and big issues, which society and the natural environment are facing.

Young children are intuitive scientists. This book builds on their inherent curiosity and problem solving as they move forward in their scientific thinking. Science develops from early beginnings and a solid foundation in the early years is essential for their future learning and engagement with the subject. Starting Inquiry Based Science in the Early Years shows you how you can support children's emerging scientific skills by working with them and scaffolding their inquiries as they experiment, hypothesise and investigate building on their natural curiosity. Full of practical advice, it offers a wide range of scientific activities that can be carried out in partnership with young children. Each activity presents a challenge for the child to solve by thinking and talking through their ideas and then carrying out their own investigations. This invaluable guide focuses on helping children to follow their own line of inquiry and supporting them in mastering the skills and vocabulary they need in order to do this. Features include: An explanation of the key skills children need to acquire and practical ideas for developing these; Useful lists of relevant vocabulary and everyday resources; Cue questions to encourage children's thinking skills; Cross-curricular links to show how the activities support early literacy and mathematics. Providing a rich bank of resources for promoting scientific experiences and learning, this highly practical book will help you ensure that the children in your care have the strong foundations they need to become confident, successful scientists in the future.

This book brings together in a unique perspective aspects of natural history dioramas, their history, construction and rationale, interpretation and educational importance, from a number of different countries, from the west coast of the USA, across Europe to China. It describes the journey of dioramas from their inception through development to visions of their future. A complementary journey is that of visitors and their individual sense making and construction of their understanding from their own starting points, often interacting with others (e.g. teachers, peers, parents) as well as media (e.g. labels). Dioramas have been, hitherto, a rather neglected area of museum exhibits but a renaissance is beginning for them and their educational importance in contributing to people's understanding of the natural world. This volume showcases how dioramas can reach a wide audience and increase access to biological knowledge.

Young children are intuitive, emergent scientists - they observe, raise hypotheses, experiment and notice patterns. Most of our everyday actions at home and in other settings, inside and outside, have a scientific basis and it is through these early experiences that children formulate their ideas about the world in which we live. This accessible book introduces the simplest form of the principles and the big ideas of science and provides a starting point for encouraging children to have an interest and experiential understanding of basic science and engineering. It shows you how you can support young children in exploring everyday phenomena and develop their scientific language skills through readily available resources and hands-on experiences. Each chapter focuses on a different aspect of science and includes: a summary of the 'big ideas' to refresh your own scientific knowledge; numerous activities that encourage young children to observe, question and carry out their own investigations; a usefil list of everyday resources and relevant vocabulary. Providing a wealth of exciting, meaningful ways to promote scientific experiences and learning, this highly practical book will help you to build on children's natural curiosity about the world and develop their understanding through your everyday provision in early years settings and at home.