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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 book approaches STEAM (Science, Technology, Engineering, the Arts and Mathematics) in early childhood education from multiple angles. It focuses on the teaching and learning of children from two years of age to the early years of school. Proponents of STEAM describe how it can create opportunities for children to learn creatively, and various chapter authors make strong connections between discipline areas within the context of an informal curriculum. Others advocate for an integrated STEM, rather than STEAM, approach. With a light touch on theory and a focus on how to embed STE(A)M in an integrated early childhood curriculum, the editors and contributors examine the STEAM versus STEM question from multiple angles. The chapters provide helpful frameworks for parents, teachers and higher education institutions, and make practical suggestions of ways to support young children’s inquiry learning. Drawing on pedagogy and research from around the world, this book will be of interest to scholars of STEAM education, early childhood educators, students of early childhood education and parents of young children.
This report aims to 'crack the code' by deciphering the factors that hinder and facilitate girls' and women's participation, achievement and continuation in science, technology, engineering and mathematics (STEM) education and, in particular, what the education sector can do to promote girls' and women's interest in and engagement with STEM education and ultimately STEM careers.
This comprehensive and engaging text covers the theoretical underpinnings and practical applications of teaching science in early childhood settings.
This book looks at the value of integrating the arts and sciences in the school curriculum. It argues that this will help students further their understanding of analytical concepts through the use of creativity. The authors illustrate how schools can work towards presenting common practices, concepts, and content. Coverage features case studies and lessons learned from classrooms across the United States. The notion of STEAM (Science, Technology, Engineering, Arts, and Mathematics) is an emerging discipline unique in its desire to provide a well-rounded approach to education. The chapters of this volume examine STEAM in a variety of settings, from kindergarten to higher education. Readers will learn about the practical considerations involved when introducing the arts and creativity into traditionally left brain processes. This includes best practices for creating and sustaining successful STEAM initiatives in any school, college, or university. For instance, one chapter discusses novel approaches to teach writing with the scientific method in order to help students better present their ideas. The authors also detail how the arts can engage more diverse learners, including students who are not traditionally interested in STEM subjects. They provide three concrete examples of classroom-tested inquiries: designing a prosthetic arm for a child, making a paleontology investigation, and taking a closer look at the arts within roller coaster engineering. This book is an invaluable resource for teachers and teacher trainers, university faculty, researchers, and school administrators. It will also be of interest to science, mathematics, engineering, computer science, information technology, arts and design and technology teachers.
This theory-to-practice guide offers leading-edge ideas for wide-scale curriculum reform in sciences, technology, engineering, the arts, and mathematics--the STEAM subjects. Chapters emphasize the critical importance of current and emerging digital technologies in bringing STEM education up to speed and implementing changes to curricula at the classroom level. Of particular interest are the diverse ways of integrating the liberal arts into STEM course content in mutually reshaping humanities education and scientific education. This framework and its many instructive examples are geared to ensure that both educators and students can become innovative thinkers and effective problem-solvers in a knowledge-based society. Included in the coverage: Reconceptualizing a college science learning experience in the new digital era. Using mobile devices to support formal, informal, and semi-formal learning. Change of attitudes, self-concept, and team dynamics in engineering education. The language arts as foundational for science, technology, engineering, art, and mathematics. Can K-12 math teachers train students to make valid logical reasoning? Moving forward with STEAM education research. Emerging Technologies for STEAM Education equips educators, education researchers, administrators, and education policymakers with curricular and pedagogical strategies for making STEAM education the bedrock of accessible, relevant learning in keeping with today's digital advances.
Young children - how they experience the world, interact with each other, pose questions and problems, and construct knowledge - form the basis for this insightful examination of early childhood science education. Authors Chaille and Britain explore the teacher's role in understanding and facilitating preschool and primary-school children's scientific explorations. Using three traditional content areas of science - chemistry, physics, and biology - and translating them into developmentally appropriate practices, The Young Child as Scientist leaves behind rigid views of science education. Both teachers and students of early childhood education are led to reconceptualize science in ways that have implications for their whole classroom. Without being a cookbook approach to curriculum planning or a purely theoretical approach, the text weaves practical examples and theory together to present constructivism as it can be implemented in real preschool and elementary classrooms.
This book is designed to build educators’ confidence and competence so they can bring STEM to life with young children. The authors encourage pre–K teachers to discover the value of engaging preschoolers in scientific inquiry, technological explorations, engineering challenges, and math experiences based on learning trajectories. They explain the big ideas in STEM, emphasizing teaching strategies that support these activities (such as language-rich STEM interactions), and describe ways to integrate concepts across disciplines. The text features research-based resources, examples of field-tested activities, and highlights from the classroom. Drawing from a professional development model that was developed with funding from the National Science Foundation, this book is an essential resource for anyone who wants to support preschool children to be STEM thinkers and doers. “I have read a lot of really good early childhood science education books over the years, and as far as I am concerned, this is the best one yet.” —From the Foreword by Betty Zan, University of Northern Iowa “This excellent book shows that the important ideas of STEM are within every teacher’s and child’s grasp.” —Douglas Clements, University of Denver “Teaches STEM content while sharing strategies for robust and developmentally appropriate instructional practice. This book is the real deal!” —Beth Graue, University of Wisconsin–Madison
How can teachers harness the power of STEM education and learning in the primary curriculum? This book gives practical STEM ideas for the classroom and supports teachers to make the most of opportunities for rich STEM experiences across the primary curriculum. This book: Explores the nature of STEM education and why it matters Highlights the opportunities for STEM learning across the curriculum Supports teachers to design and innovate engaging STEM learning experiences Includes a chapter on STEM in the early years.
"Use STEAM provocations throughout your busy day to jump-start your morning, decompress and reenergize midday, occupy children who complete assigned classroom work early, incentivize children to complete a goal, transition between the busier times of day and planned classroom work times, end the day empowering children to build their collaboration and communication skills before heading home"--from back cover.