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| science in early childhood education: Science in Early Childhood Coral Campbell, Wendy Jobling, Wendy Margaret Jobling, 2012-05-21 This comprehensive and engaging text covers the theoretical underpinnings and practical applications of teaching science in early childhood settings. |
| science in early childhood education: Contemporary Perspectives on Science and Technology in Early Childhood Education Olivia Saracho, Bernard Spodek, 2008-01-01 For decades, politicians, businessmen and other leaders have been concerned with the quality of education, including early childhood education, in the United States. While more than 50% of the children between the ages of three and five are enrolled in preschool and kindergarten programs in the United States, no state, federal, or national standards exist for science or technology education in preschool or kindergarten programs. Knowledge about science and technology is an important requirement for all in contemporary society. An increasing number of professions require the use of scientific concepts and technological skills and society as a whole depends on scientific knowledge. Scientific and technological knowledge should be a part of every individual’s education. There are many ways to enhance young children’s scientific thinking and problem-solving skills as well as their technological abilities. The purpose of this volume is to present a critical analysis of reviews of research on science and technology education in early childhood education. The first part of the volume includes contributions by leading scholars in science, while the second part includes contributions by leading scholars in technology. |
| science in early childhood education: Research in Early Childhood Science Education Kathy Cabe Trundle, Mesut Saçkes, 2015-04-15 This book emphasizes the significance of teaching science in early childhood classrooms, reviews the research on what young children are likely to know about science and provides key points on effectively teaching science to young children. Science education, an integral part of national and state standards for early childhood classrooms, encompasses not only content-based instruction but also process skills, creativity, experimentation and problem-solving. By introducing science in developmentally appropriate ways, we can support young children’s sensory explorations of their world and provide them with foundational knowledge and skills for lifelong science learning, as well as an appreciation of nature. This book emphasizes the significance of teaching science in early childhood classrooms, reviews the research on what young children are likely to know about science, and provides key points on effectively teaching young children science. Common research methods used in the reviewed studies are identified, methodological concerns are discussed and methodological and theoretical advances are suggested. |
| science in early childhood education: STEM in Early Childhood Education Lynn E. Cohen, Sandra Waite-Stupiansky, 2019-07-12 Bringing together a diverse cohort of experts, STEM in Early Childhood Education explores the ways STEM can be integrated into early childhood curricula, highlighting recent research and innovations in the field, and implications for both practice and policy. Based on the argument that high-quality STEM education needs to start early, this book emphasizes that early childhood education must include science, technology, engineering, and mathematics in developmentally appropriate ways based on the latest research and theories. Experienced chapter authors address the theoretical underpinnings of teaching STEM in the early years, while contextualizing these ideas for the real world using illustrative examples from the classroom. This cutting-edge collection also looks beyond the classroom to how STEM learning can be facilitated in museums, nature-based learning outdoors, and after-school programs. STEM in Early Childhood Education is an excellent resource for aspiring and veteran educators alike, exploring the latest research, providing inspiration, and advancing best practices for teaching STEM in the early years. |
| science in early childhood education: From Neurons to Neighborhoods National Research Council, Institute of Medicine, Board on Children, Youth, and Families, Committee on Integrating the Science of Early Childhood Development, 2000-11-13 How we raise young children is one of today's most highly personalized and sharply politicized issues, in part because each of us can claim some level of expertise. The debate has intensified as discoveries about our development-in the womb and in the first months and years-have reached the popular media. How can we use our burgeoning knowledge to assure the well-being of all young children, for their own sake as well as for the sake of our nation? Drawing from new findings, this book presents important conclusions about nature-versus-nurture, the impact of being born into a working family, the effect of politics on programs for children, the costs and benefits of intervention, and other issues. The committee issues a series of challenges to decision makers regarding the quality of child care, issues of racial and ethnic diversity, the integration of children's cognitive and emotional development, and more. Authoritative yet accessible, From Neurons to Neighborhoods presents the evidence about brain wiring and how kids learn to speak, think, and regulate their behavior. It examines the effect of the climate-family, child care, community-within which the child grows. |
| science in early childhood education: A Head Start on Science William C. Ritz, 2007-06 For the littlest scientists, the whole wide world can be a laboratory for learning. Nurture their natural curiosity with A Head Start on Science, a treasury of 89 hands-on science activities specifically for children ages 3 to 6. The activities are grouped into seven stimulating topic areas: the five senses, weather, physical science, critters, water and water mixture, seeds, and nature walks. |
| science in early childhood education: A Sense of Wonder Jenny Aitken, Jan Hunt, Elizabeth Roy, Bess Sajfar, 2012 A Sense of Wonder explores the possibilities for experiencing science in early childhood settings, together with practical ideas to inspire early childhood educators and pre-service students. Although the information in the book is theory based, this is a practical book which is easy to read and is illustrated throughout with full-colour photographs. The book covers life, natural and physical science, plus environmental care, sustainability and biodiversity, with links throughout to the EYLF. |
| science in early childhood education: Scientific Influences on Early Childhood Education Dominic F. Gullo, M. Elizabeth Graue, 2020-04-23 Scientific Influences on Early Childhood Education offers a new framework for examining the diverse scientific perspectives that shape early childhood education. As the field takes on an increasing role in addressing children’s educational, developmental, and environmental needs, it is critical to more fully understand and appreciate the diverse scientific roots of contemporary early childhood education. This edited collection brings together leading researchers to explain and unpack perspectives that are not often associated with early childhood education, yet have made significant contributions to its development and evolution. Essential reading for anyone working with young children, this critical and insightful text illuminates the connections between our social values, science, and research in the field. |
| science in early childhood education: Science in the Early Years Pat Brunton, Linda Thornton, 2009-12-01 Giving early years practitioners and students the confidence to effectively support scientific exploration and investigation with young children, this book explains the science behind young children's knowledge and understanding of the world. Linking theory to good early years practice, the emphasis throughout the book is on recognizing young children as competent, creative thinkers and building on their ideas. The reader is encouraged to think carefully about the role of the adult in supporting child-initiated learning and discovery by providing open ended resources, asking productive questions and observing carefully. The authors provide essential background information for all the key areas of scientific knowledge supported by practical ideas suitable for babies, toddlers and children aged 3 to 5 years. For each of these ideas, practice and theory are linked by highlighting the skills, attitudes and dispositions to observe and the questions to ask to challenge young children's thinking and plan for the next stages in their learning. Chapters cover: - the place of science in early years curricula in the UK - the processes of science and the role of the adult in supporting young children's scientific learning - using open ended resources to create a science-rich environment - essential background knowledge, covering all areas of early years science - ideas to use as starting points for exploration and investigation, indoors and outdoors - pointers for observational assessment and planning - suppliers of resources and equipment By making clear links to practice, and providing ideas to use with babies and toddlers as well as with 3-5 year old children, this book enables the reader to fully exploit the potential for exploration and investigation in any early years setting. Pat Brunton and Linda Thornton are both Education Consultants based in Cheltenham. They run their own training and consultancy company alc associates, and edit Early Years Update. |
| science in early childhood education: Taking Science to School National Research Council, Division of Behavioral and Social Sciences and Education, Center for Education, Board on Science Education, Committee on Science Learning, Kindergarten Through Eighth Grade, 2007-04-16 What is science for a child? How do children learn about science and how to do science? Drawing on a vast array of work from neuroscience to classroom observation, Taking Science to School provides a comprehensive picture of what we know about teaching and learning science from kindergarten through eighth grade. By looking at a broad range of questions, this book provides a basic foundation for guiding science teaching and supporting students in their learning. Taking Science to School answers such questions as: When do children begin to learn about science? Are there critical stages in a child's development of such scientific concepts as mass or animate objects? What role does nonschool learning play in children's knowledge of science? How can science education capitalize on children's natural curiosity? What are the best tasks for books, lectures, and hands-on learning? How can teachers be taught to teach science? The book also provides a detailed examination of how we know what we know about children's learning of scienceâ€about the role of research and evidence. This book will be an essential resource for everyone involved in K-8 science educationâ€teachers, principals, boards of education, teacher education providers and accreditors, education researchers, federal education agencies, and state and federal policy makers. It will also be a useful guide for parents and others interested in how children learn. |
| science in early childhood education: Inclusive Teaching in the Early Childhood Science Classroom John T. Almarode, 2021-04-13 Focused on engaging all students, Inclusive Teaching in the Early Childhood Science Classroom walks readers through the process of planning, developing, and implementing science instruction for early learners. Drawing on a range of pedagogical processes and approaches, this comprehensive text links science to other disciplines and explores how we develop language, social-emotional, and content learning through early childhood science. Each chapter is framed around an essential question and features success criteria and reflection tasks to guide readers through the content. Aligned with the Next Generation Science Standards and addressing the Interstate New Teacher Assessment and Support Consortium Model Core Teaching Standards, this textbook is critical reading for preservice teacher education students enrolled in an inclusive early childhood or early childhood science methods course. |
| science in early childhood education: Transforming the Workforce for Children Birth Through Age 8 National Research Council, Institute of Medicine, Board on Children, Youth, and Families, Committee on the Science of Children Birth to Age 8: Deepening and Broadening the Foundation for Success, 2015-07-23 Children are already learning at birth, and they develop and learn at a rapid pace in their early years. This provides a critical foundation for lifelong progress, and the adults who provide for the care and the education of young children bear a great responsibility for their health, development, and learning. Despite the fact that they share the same objective - to nurture young children and secure their future success - the various practitioners who contribute to the care and the education of children from birth through age 8 are not acknowledged as a workforce unified by the common knowledge and competencies needed to do their jobs well. Transforming the Workforce for Children Birth Through Age 8 explores the science of child development, particularly looking at implications for the professionals who work with children. This report examines the current capacities and practices of the workforce, the settings in which they work, the policies and infrastructure that set qualifications and provide professional learning, and the government agencies and other funders who support and oversee these systems. This book then makes recommendations to improve the quality of professional practice and the practice environment for care and education professionals. These detailed recommendations create a blueprint for action that builds on a unifying foundation of child development and early learning, shared knowledge and competencies for care and education professionals, and principles for effective professional learning. Young children thrive and learn best when they have secure, positive relationships with adults who are knowledgeable about how to support their development and learning and are responsive to their individual progress. Transforming the Workforce for Children Birth Through Age 8 offers guidance on system changes to improve the quality of professional practice, specific actions to improve professional learning systems and workforce development, and research to continue to build the knowledge base in ways that will directly advance and inform future actions. The recommendations of this book provide an opportunity to improve the quality of the care and the education that children receive, and ultimately improve outcomes for children. |
| science in early childhood education: Eager to Learn National Research Council, Commission on Behavioral and Social Sciences and Education, Committee on Early Childhood Pedagogy, 2001-01-22 Clearly babies come into the world remarkably receptive to its wonders. Their alertness to sights, sounds, and even abstract concepts makes them inquisitive explorersâ€and learnersâ€every waking minute. Well before formal schooling begins, children's early experiences lay the foundations for their later social behavior, emotional regulation, and literacy. Yet, for a variety of reasons, far too little attention is given to the quality of these crucial years. Outmoded theories, outdated facts, and undersized budgets all play a part in the uneven quality of early childhood programs throughout our country. What will it take to provide better early education and care for our children between the ages of two and five? Eager to Learn explores this crucial question, synthesizing the newest research findings on how young children learn and the impact of early learning. Key discoveries in how young children learn are reviewed in language accessible to parents as well as educators: findings about the interplay of biology and environment, variations in learning among individuals and children from different social and economic groups, and the importance of health, safety, nutrition and interpersonal warmth to early learning. Perhaps most significant, the book documents how very early in life learning really begins. Valuable conclusions and recommendations are presented in the areas of the teacher-child relationship, the organization and content of curriculum, meeting the needs of those children most at risk of school failure, teacher preparation, assessment of teaching and learning, and more. The book discusses: Evidence for competing theories, models, and approaches in the field and a hard look at some day-to-day practices and activities generally used in preschool. The role of the teacher, the importance of peer interactions, and other relationships in the child's life. Learning needs of minority children, children with disabilities, and other special groups. Approaches to assessing young children's learning for the purposes of policy decisions, diagnosis of educational difficulties, and instructional planning. Preparation and continuing development of teachers. Eager to Learn presents a comprehensive, coherent picture of early childhood learning, along with a clear path toward improving this important stage of life for all children. |
| science in early childhood education: Exploring Math & Science in Preschool Teaching Young Children, 2015 Much of the content in this book is adapted from Teaching Young Children (TYC), NAEYC's award-winning magazine ...--Page [104] |
| science in early childhood education: Teaching Science and Technology in the Early Years (3-7) Dan Davies, Alan Howe, Christopher Collier, Rebecca Digby, Sarah Earle, Kendra McMahon, 2014-04-24 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. |
| science in early childhood education: Visible Learning in Early Childhood Kateri Thunder, John Almarode, John Hattie, 2021-09-13 Make learning visible in the early years Early childhood is a uniquely sensitive time, when young learners are rapidly developing across multiple domains, including language and literacy, mathematics, and motor skills. Knowing which teaching strategies work best and when can have a significant impact on a child’s development and future success. Visible Learning in Early Childhood investigates the critical years between ages 3 and 6 and, backed by evidence from the Visible Learning® research, explores seven core strategies for learning success: working together as evaluators, setting high expectations, measuring learning with explicit success criteria, establishing developmentally appropriate levels of learning, viewing mistakes as opportunities, continually seeking feedback, and balancing surface, deep, and transfer learning. The authors unpack the symbiotic relationship between these seven tenets through Authentic examples of diverse learners and settings Voices of master teachers from the US, UK, and Australia Multiple assessment and differentiation strategies Multidisciplinary approaches depicting mathematics, literacy, art and music, social-emotional learning, and more Using the Visible Learning research, teachers partner with children to encourage high expectations, developmentally appropriate practices, the right level of challenge, and a focus on explicit success criteria. Get started today and watch your young learners thrive! |
| science in early childhood education: Science Experiences for the Early Childhood Years Jean Durgin Harlan, 1976 Updated to reflect the National Science Education Standards, this leading text, takes a hands-on approach to science learning by providing a solid theoretical foundation and many practical activities. A truly unique quality of the text is the science-concept-based units that offer teachers a way to integrate science knowledge and processes into the whole curriculum (including art, math, music, creative movement, creative thinking, community, and family relations). |
| science in early childhood education: Handbook of Early Childhood Education Robert C. Pianta, Susan M. Sheridan, 2015-08-12 Comprehensive and authoritative, this forward-thinking book reviews the breadth of current knowledge about early education and identifies important priorities for practice and policy. Robert C. Pianta and his associates bring together foremost experts to examine what works in promoting all children's school readiness and social-emotional development in preschool and the primary grades. Exemplary programs, instructional practices, and professional development initiatives?and the systems needed to put them into place?are described. The volume presents cutting-edge findings on the family and social context of early education and explores ways to strengthen collaboration between professionals and parents. |
| science in early childhood education: Science in Early Childhood Coral Campbell, Wendy Jobling, Wendy Margaret Jobling, Christine Howitt, 2015-05-04 This second edition has been substantially updated and revised to include comprehensive coverage of the birth-to-eight age group. Drawing on the most up-to-date research, this edition presents current issues and debates relevant to pre-service teachers of early childhood science, both at pre-school and in the early years of schooling. |
| science in early childhood education: Constructing Early Childhood Science David Jerner Martin, 2001 Open-ended inquiry activities from a constructionist perspective for young children. Basic processes include: observing, classifying, communicating, measuring, predicting, and inferring, |
| science in early childhood education: Preschool Pathways to Science Rochel Gelman, 2010 To ensure they're meeting early learning guidelines for science, preschool educators need fun, age-appropriate, and research-based ways to teach young children about scientific concepts. That's just what they'll get with this hands-on guidebook. The basis for the PBS KIDS show Sid the Science Kid, this innovative teaching resource helps children ages 3 - 5 investigate their everyday world and develop the basics of scienfific thinking, skills they'll apply across subject areas when they enter school. A fun and engaging way to introduce science to young children, PrePS is a must-have because it: is based on the domain-specific approach to cognitive development; provides age-appropriate introduction to key science practices; makes the most of children's natural curiosity; encourages collaboration between teachers and children; enhances any curriculum; and taps teachers' creativity. This reader-friendly guide gives educators the guidance they need to work PrePS into their existing program; sample schedules designed for the preschool classroom; and detailed sample activites they can do right away or use as templates for their own creative lessons. And with the book's assessment guidelines, teachers will know PrePS is having a measurable effect on the classroom environment and student learning. |
| science in early childhood education: Applying Implementation Science in Early Childhood Programs and Systems Tamara Halle, Allison Metz, Ivelisse Martinez-Beck, 2013 Improving outcomes for young children and their families may start with choosing evidence-based curricula, interventions, and practices, but it doesn't end there. To ensure sustained changes to early childhood programs and systems, interventions must be implemented effectively and consistently over time, which isn't an easy or straightforward task. This important book is the first research volume on applying implementation science, an evidence-based framework for bridging the research-to-practice gap, to early childhood programs and systems. With contributions from 25+ early childhood researchers, this essential reference will help ensure that interventions are not only implemented effectively, but also scaled up and sustained so they help as many children as possible. Administrators, researchers, and policymakers will: discover the core components needed to implement and sustain change in programs and systems; explore through specific examples how to build practitioner competency and promote high-fidelity implementation of early childhood innovations; learn from a helpful five-step model for assessing the fidelity of interventions; understand how to create readiness for change and why it's so important; and see how implementation science can inform the process of systems change for early childhood professsional development systems and Quality Rating and Improvement Systems. More than a how-to-guide to effective implementation and scale-up this volume also addresses the theoretical foundation of the stages of implementation science at all levels of early childhood systems and considers research, practice, and policy implications. A foundational volume on the fundamentals of implementation science, this book will help improve long-term outcomes for all young children. Early childhood programs will learn how to replicate and sustain best practices, researchers will be ready to conduct more informed program evaluations, and policymakers will discover what it really takes to have effective, sustainable programs and systems. |
| science in early childhood education: Funds of Knowledge Norma Gonzalez, Luis C. Moll, Cathy Amanti, 2006-04-21 The concept of funds of knowledge is based on a simple premise: people are competent and have knowledge, and their life experiences have given them that knowledge. The claim in this book is that first-hand research experiences with families allow one to document this competence and knowledge, and that such engagement provides many possibilities for positive pedagogical actions. Drawing from both Vygotskian and neo-sociocultural perspectives in designing a methodology that views the everyday practices of language and action as constructing knowledge, the funds of knowledge approach facilitates a systematic and powerful way to represent communities in terms of the resources they possess and how to harness them for classroom teaching. This book accomplishes three objectives: It gives readers the basic methodology and techniques followed in the contributors' funds of knowledge research; it extends the boundaries of what these researchers have done; and it explores the applications to classroom practice that can result from teachers knowing the communities in which they work. In a time when national educational discourses focus on system reform and wholesale replicability across school sites, this book offers a counter-perspective stating that instruction must be linked to students' lives, and that details of effective pedagogy should be linked to local histories and community contexts. This approach should not be confused with parent participation programs, although that is often a fortuitous consequence of the work described. It is also not an attempt to teach parents how to do school although that could certainly be an outcome if the parents so desired. Instead, the funds of knowledge approach attempts to accomplish something that may be even more challenging: to alter the perceptions of working-class or poor communities by viewing their households primarily in terms of their strengths and resources, their defining pedagogical characteristics. Funds of Knowledge: Theorizing Practices in Households, Communities, and Classrooms is a critically important volume for all teachers and teachers-to-be, and for researchers and graduate students of language, culture, and education. |
| science in early childhood education: Exploring Science in Early Childhood Karen Lind, 2005 Exploring Science in Early Childhood makes teaching a basic understanding of science skills to young people more achievable and successful than ever. In using this book to teach future educators, such top universities as Harvard recognize that the activities and applications presented in developmental sequence strongly support children learning. When put into practice, the approaches espoused in this edition will enable children to construct the concepts and skills imperative for learning a basic understanding of science. The same and skills also play an importance role in understanding mathematics and are closely related to reading and reading comprehension skills. Developed in cooperation with teachers at each developmental level, the concepts, skills, and instructional strategies are aligned with national standards in science, principles and standards for mathematics, and early childhood standards. |
| science in early childhood education: Exploring Water with Young Children Ingrid Chalufour, Karen Worth, 2005-05-23 Discover the science behind exploring and understanding water with young children. |
| science in early childhood education: Sesame Street: Ready for School! Rosemarie T. Truglio, Pamela Thomas, 2019-09-10 Sesame Street, the most trusted name in preschool education, offers a complete, user-friendly guide to help parents prepare their children, ages 2-5, for academic, physical, and social success. For the past 50 years, Sesame Street has stood at the forefront of child development, stimulating and nurturing the minds of preschoolers not only through the iconic TV show, but also through books, games, mobile apps, and community engagement initiatives. With Ready for School!, Senior VP of Curriculum and Content at Sesame Workshop Dr. Rosemarie Truglio shares all the research-based, curriculum-directed school readiness skills that have made Sesame Street the preeminent children's TV program, and that every parent needs in order to get their preschooler ready for lifelong learning. Each of the book's eight chapters focuses on a key area: language, literacy, math, science, logic & reasoning, social & emotional development, healthy habits, and the arts. An essential dynamic of Ready for School! is its emphasis on the importance of play in a child's learning process. To respond to that need, dozens of Play & Learn activities are included to aid parents in educating their children: at the kitchen table, on the bus, in the park, or in the preschool classroom while playing together. In addition, the book recommends scores of hints, tips, ideas for useful products, and deep-dives on more complex topics for parents, all designed to make preparing young kids for school easy and joyful. |
| science in early childhood education: Contemporary Perspectives on Research in Creativity in Early Childhood Education Olivia Saracho, 2012-05-01 Recently, a new understanding of creative thought and creative performance has surfaced. It has also attracted the attention of early childhood professional organizations and researchers. Professional organizations have included it in their publications and conferences. While current creativity researchers have initiated a far more sophisticated understanding of young children’s creative thinking, ways to assess creativity, strategies to promote creativity, and research methodologies. The purpose of this volume is to present a wide range of different theories and areas in the study of creativity to help researchers and theorists work toward the development of different perspectives on creativity with young children. It focuses on critical analyses and reviews of the literature on topics related to creativity research, development, theories, and practices. It will serve as a reference for early childhood education researchers, scholars, academics, general educators, teacher educators, teachers, graduate students, and scientists to stimulate further “dialogue” on ways to enhance creativity. The chapters are of high quality and provide scholarly analyses of research studies that capture the full range of approaches to the study of creativity --- behavioral, clinical, cognitive, cross-cultural, developmental, educational, genetic, organizational, psychoanalytic, psychometric, and social. Interdisciplinary research is also included, as is research within specific domains such as art and science, as well as on critical issues (e.g., aesthetics, genius, imagery, imagination, insight, intuition, metaphor, play, problem finding and solving). Thus, it offers critical analyses on reviews of research in a form that are useful to early childhood researchers, scholars, educators, and graduate students. It also places the current research in its historical context. The volume is also of interest to the general readers who are interested in the young children’s creativity. The chapters are authored by established scholars in the field of young children’s creativity. |
| science in early childhood education: Start Young! Shannan McNair, 2006 You asked for it---now you've got it In a focus group at a recent NSTA convention, teachers of prekindergarten through second grade clamored for help. They do want easy-to-do science activities they can use for everyday teaching. But they don't want to be forced to adapt material meant for older children. So here's the solution. Start Young offers a wealth of simple educational activities designed to use right away with even the littlest scientists. The book includes a chapter of helpful background on the latest thinking about effective ways to introduce science in early childhood. But the bulk of the book is two dozen articles compiled from Science & Children, NSTA's award-winning journal for elementary school teachers |
| science in early childhood education: Transforming the Financing of Early Care and Education National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Division of Behavioral and Social Sciences and Education, Board on Children, Youth, and Families, Committee on Financing Early Care and Education with a Highly Qualified Workforce, 2018-07-17 High-quality early care and education for children from birth to kindergarten entry is critical to positive child development and has the potential to generate economic returns, which benefit not only children and their families but society at large. Despite the great promise of early care and education, it has been financed in such a way that high-quality early care and education have only been available to a fraction of the families needing and desiring it and does little to further develop the early-care-and-education (ECE) workforce. It is neither sustainable nor adequate to provide the quality of care and learning that children and families needâ€a shortfall that further perpetuates and drives inequality. Transforming the Financing of Early Care and Education outlines a framework for a funding strategy that will provide reliable, accessible high-quality early care and education for young children from birth to kindergarten entry, including a highly qualified and adequately compensated workforce that is consistent with the vision outlined in the 2015 report, Transforming the Workforce for Children Birth Through Age 8: A Unifying Foundation. The recommendations of this report are based on essential features of child development and early learning, and on principles for high-quality professional practice at the levels of individual practitioners, practice environments, leadership, systems, policies, and resource allocation. |
| science in early childhood education: The ELC: An Early Childhood Learning Community at Work Lorraine Melita, Heather Bridge, Patricia Roiger, 2020-07-21 |
| science in early childhood education: The Creative Curriculum for Infants, Toddlers & Twos Diane Trister Dodge, Sherrie Rudick, Kai-leé Berke, Amy Laura Dombro, 2006 Helps teachers appreciate and find joy in the everyday discoveries that delight a child, and helps them to thoughtfully observe and use what they learn, to respond to children's interests and needs. |
| science in early childhood education: Making and Tinkering with STEM Cate Heroman, 2017 Explore STEM concepts through making and tinkering! |
| science in early childhood education: Children's Exploration and Cultural Formation Mariane Hedegaard, Elin Eriksen Ødegaard, 2020-02-28 This open access book examines the educational conditions that support cultures of exploration in kindergartens. It conceptualises cultures of exploration, whether those cultures are created through children’s own engagement or are demanded of them through undertaking specific tasks within different institutional settings. It shows how the conditions for children’s exploration form a web of activities in different settings with social relationships, local landscapes and artefacts. The book builds on the understanding of cultural traditions as deeply implicated in the developmental processes, meaning that local considerations must be reflected in education for sustainable futures. Therefore the book examines and conceptualises exploration and cultural formation through locally situated cases and navigates toward global educational concepts. The book provides different windows into how children may explore in everyday practice settings in kindergarten, and contributes to a loci-based, ecological, integral knowledge relevant for early childhood education. |
| science in early childhood education: Early Childhood Education Gilbert R. Austin, 1976 Includes a section on the United States. |
| science in early childhood education: Conceptual Change in Childhood Susan Carey, 1987-01-01 Are children fundamentally different kinds of thinkers than adults? Or are the cognitive differences between young children and adults merely a matter of accumulation of knowledge? In this book, Susan Carey develops an alternative to these two ways of thinking about childhood cognition, putting forth the idea of conceptual change and its relation to the development of knowledge systems.Conceptual Change in Childhood is a case study of children's acquisition of biological knowledge between ages 4-10. Drawing on evidence from a variety of sources, Carey analyzes the ways that knowledge is restructured during this development, comparing them to the ways that knowledge is restructured by an adult learner, and to the ways that conceptual frameworks have shifted in the history of science. Susan Carey is Professor of Psychology at MIT. |
| science in early childhood education: Building Structures with Young Children--Trainer's Guide Ingrid Chalufour, Karen Worth, 2004-10-13 A companion to the curriculum, this trainer’s guide serves as an indispensable handbook for trainers and administrators interested in introducing staff to the Building Structures with Young Children curriculum—from planning to implementation. Special sections outline the curriculum and introduce scientific reasoning to adults, and eight workshops detail the complete curriculum for staff members. The guide also includes strategies for supporting teachers over time through mentoring and guided discussions. |
| science in early childhood education: Science and Mathematics in Early-childhood Education Donna M. Wolfinger, 1994 |
| science in early childhood education: Research Anthology on Computational Thinking, Programming, and Robotics in the Classroom Management Association, Information Resources, 2021-07-16 The education system is constantly growing and developing as more ways to teach and learn are implemented into the classroom. Recently, there has been a growing interest in teaching computational thinking with schools all over the world introducing it to the curriculum due to its ability to allow students to become proficient at problem solving using logic, an essential life skill. In order to provide the best education possible, it is imperative that computational thinking strategies, along with programming skills and the use of robotics in the classroom, be implemented in order for students to achieve maximum thought processing skills and computer competencies. The Research Anthology on Computational Thinking, Programming, and Robotics in the Classroom is an all-encompassing reference book that discusses how computational thinking, programming, and robotics can be used in education as well as the benefits and difficulties of implementing these elements into the classroom. The book includes strategies for preparing educators to teach computational thinking in the classroom as well as design techniques for incorporating these practices into various levels of school curriculum and within a variety of subjects. Covering topics ranging from decomposition to robot learning, this book is ideal for educators, computer scientists, administrators, academicians, students, and anyone interested in learning more about how computational thinking, programming, and robotics can change the current education system. |
| science in early childhood education: Science Literacy in Primary Schools and Pre-Schools Haim Eshach, 2006-08-12 This well-written and thought-provoking book presents the state-of-the-art in science education for kindergarten and primary schools. It begins with a thorough theoretical discussion on why it is incumbent on the science educator to teach science at first stages of childhood. It goes on to analyze and synthesize a broad range of educational approaches and themes. The book also presents novel strategies to science teaching. |
| science in early childhood education: Science Learning in the Early Years Peggy Ashbrook, 2016-03-01 |
Science in Early Childhood - Cambridge University Press
Science education in the early years is vital to assist young children to come to know and understand the world around them. This second edition of Science in Early Childhood has …
Science in Early Childhood
Years Learning Framework. This text explores the current issues and debates in early childhood science edu-cation from an Australian perspective, while recognising the links to internati.
A Sense of Wonder - Natural Learning
Each chapter includes carefully chosen images to make visual connections to play-based science learning and the Early Years Learning Framework to empower educators to confidently …
Developing Inquiry-Based Science Activities in Early Childhood ...
provides an understanding of inquiry-based science education in early childhood, but there is a need for studies focusing on teachers' behaviours, teaching processes, and problems …
SCIENCE IN EARLY CHILDHOOD - Cambridge University Press
Science in Early Childhood continues to provide a comprehensive and engaging introduction to science learning in the early years (birth to age 8). Each chapter has been substantially …
Early Childhood Science Education from 0 to 6: A Literature Review
Identifying what we do know about science experiences for our youngest learners within the birth to three period specifically, is critical. This paper reviews the literature, and for the first time …
This document is provided by National Geographic Learning ... - Cengage
These basic scientific concepts and science process skills begin to develop as early as infancy, with the sophistication of children’s competency developing with age (Meyer, Wardrop & …
STEM starts early - The Joan Ganz Cooney Center
Teachers in early childhood environments need more robust training and professional development to effectively engage young children in developmentally appropriate STEM learning.
NSTA Position Statement: Early Childhood Science Education
early childhood education should • provide appropriate resources for teachers and children; • ensure a positive and safe environment for exploration and discovery; • ensure teachers …
The Science of Early Childhood Development - Center on the …
Its goal is to promote an understanding of the basic science of early childhood devel- opment, including its underlying neurobiology, to inform both public and private sector investment in …
STEM Integrated Curriculums in Early Childhood
11 Feb 2022 · As the studies on science, technology, engineering, and mathematics (STEM) in early childhood ( EC) education overwhelmingly focus on child learning outcomes, factors …
Science in Early Childhood Education - pure.au.dk
Science in Early Childhood Education Stig Broström1 Abstract Based on an action research project with 12 preschools in a municipality north of Copenhagen the article investigates and …
Science - Cambridge University Press & Assessment
Science exploration plays a vital role in children’s lives as they make sense of the world around them. Now in its fifth edition, Science in Early Childhood complements the recently updated …
Science in the Early Years - Education Review Office
We explored these three areas in 147 early childhood services and 78 primary schools, and made a judgment as to how well they were doing in each area. We found elements of good practice …
Teaching Science During the Early Childhood Years
development, and researchers suggest science education should begin during the early years of schooling (Eshach & Fried, 2005; Watters, Diezmann, Grieshaber, & Davis, 2000). There are …
STEM STARTS EARLY: GROUNDING SCIENCE, TECHNOLOGY
This comprehensive study offers an extensive list of recommendations intended to help guide STEM integration into early childhood.
Implementing STEAM in the Early Childhood Classroom - ed
STEAM (Science, Technology, Engineering, Art, and Math) education has received growing attention over the past decade, primarily within the middle and high school levels. This article …
A Systematic Review of Curiosity and Wonder in Natural Science …
Both curiosity and wonder are considered important motivational factors for learning during early childhood (0–8 years). This systematic literature review explores research about scientific …
STEM in Early Childhood: Establishing a Culture of Inquiry with
Teaching young children to engage in inquiry, particularly in the areas of science and math, can nurture powerful learning and social-emotional connections. Our university offers a course on …
Findings from a Pre-kindergarten Classroom: Making the Case
Here, we outline our mixed-methods design-based research investigation of a pre-kindergarten (Pre-K) classroom where two early childhood educators are incorporating STEM activities.
Science in Early Childhood - Cambridge University Press & Assessment
Science education in the early years is vital to assist young children to come to know and understand the world around them. This second edition of Science in Early Childhood has been substantially updated and revised to include …
Science in Early Childhood
Years Learning Framework. This text explores the current issues and debates in early childhood science edu-cation from an Australian perspective, while recognising the links to internati.
A Sense of Wonder - Natural Learning
Each chapter includes carefully chosen images to make visual connections to play-based science learning and the Early Years Learning Framework to empower educators to confidently implement science with all age groups in early childhood …
Developing Inquiry-Based Science Activities in Early Childhood ...
provides an understanding of inquiry-based science education in early childhood, but there is a need for studies focusing on teachers' behaviours, teaching processes, and problems experienced to develop inquiry-based learning practices in …
SCIENCE IN EARLY CHILDHOOD - Cambridge University Press & Assessment
Science in Early Childhood continues to provide a comprehensive and engaging introduction to science learning in the early years (birth to age 8). Each chapter has been substantially updated to include the most current research …
