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This teacher’s guide provides the background information, STEM concepts, and strategies needed to successfully implement an early STEM curriculum (Ramps and Pathways) with young children, ages 3–8. R&P actively engages young children in designing and building ramp structures using wooden cove molding, releasing marbles on the structures, and observing what happens. Children use logical-mathematical thinking and problem-solving skills as they explore science concepts related to motion, force, and energy. This guide helps teachers to: Structure and organize an engaging STEM learning environment. Understand and promote logical-mathematical and scientific thinking during investigations. Promote social settings that enhance communication, cooperation, and collaboration. Make the necessary accommodations and modifications for diverse learners. Integrate STEM concepts and skills with other content areas. Align teaching and learning with Next Generation Science Standards (NGSS) and Common Core State Standards (CCSS). Assess STEM learning using formative and summative assessments. Establish adult learning communities to support ongoing professional development. Help children develop habits and behaviors that contribute to positive attitudes toward STEM. This one-of-a-kind resource uses a newly created Inquiry Teaching Model (ITM) as the conceptual framework and devotes specific attention to the importance of an inclusive and social, STEM learning environment in which children are free to collaborate, take risks, and investigate within the context of exploratory and constructive play.
Explore STEM concepts through making and tinkering!
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
Provides an introduction to constructivist physics with classroom examples illustrating how children construct knowledge. Shows how to promote children's scientific reasoning by engaging them in active experimentation.
The technology revolution has made it critical for all children to understand science, technology, engineering, and math (STEM) or risk being left behind. Promising Practices for Engaging Families in STEM Learning explores how families, schools, and communities can join together to promote student success in STEM by building organized and equitable pathways for family engagement across all of the settings in which students learn – including, schools, early childhood programs, homes, libraries and museums –from the earliest years through adolescence. This thought-provoking monograph includes three main sections with chapters from leading thinkers in the field: > The first section provides the theoretical and research base for the importance of family engagement in STEM and draws out the challenges and opportunities that exist– from the transmission of adults’ anxiety and lack of confidence in their own STEM skills, to inequalities in out-of-school learning opportunities, to biases and misconceptions about the kinds of STEM supports offered by families from low-income and immigrant homes. > The second section builds on this research by presenting success stories, best practices, and approaches to engaging families in STEM. > The final section focuses on how policies at the local, state, and federal level can support the promotion of family engagement in STEM. Taken together, the monograph shows that STEM is a powerful mechanism to connect, engage, and empower families. > STEM provides opportunities for parents and children to spend time together asking fun and meaningful questions that link in-and out-of-school learning. > STEM creates new experiences for families to co-construct and support learning with their children from the earliest years throughout formal schooling and onto college and career pathways. > STEM also presents possibilities for families to build confidence and agency in supporting children’s interests; especially those families who might be marginalized because of their economic or language status, race, or culture.
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.
This teacher’s guide provides the background information, STEM concepts, and strategies needed to successfully implement an early STEM curriculum (Ramps and Pathways) with young children, ages 3–8. R&P actively engages young children in designing and building ramp structures using wooden cove molding, releasing marbles on the structures, and observing what happens. Children use logical-mathematical thinking and problem-solving skills as they explore science concepts related to motion, force, and energy. This guide helps teachers to: Structure and organize an engaging STEM learning environment. Understand and promote logical-mathematical and scientific thinking during investigations. Promote social settings that enhance communication, cooperation, and collaboration. Make the necessary accommodations and modifications for diverse learners. Integrate STEM concepts and skills with other content areas. Align teaching and learning with Next Generation Science Standards (NGSS) and Common Core State Standards (CCSS). Assess STEM learning using formative and summative assessments. Establish adult learning communities to support ongoing professional development. Help children develop habits and behaviors that contribute to positive attitudes toward STEM. This one-of-a-kind resource uses a newly created Inquiry Teaching Model (ITM) as the conceptual framework and devotes specific attention to the importance of an inclusive, social, STEM learning environment in which children are free to collaborate, take risks, and investigate within the context of exploratory and constructive play. “This book is a must for all concerned with the education of young children. Using ramps and pathways as an exciting and stimulating example of how to engage children in rich STEM experiences, this team of highly knowledgeable and skilled researchers and practitioners draw from their deep and extensive backgrounds to present a clear and comprehensive view of the current landscape of inquiry-based STEM teaching and learning for young children. It is a book that can and should inform both policy and practice.” —Karen Worth, Elementary Education Department, Wheelock College
This book analyses and synthesises past and current approaches to STEM Education in the Early Years, particularly the role of digital technologies and play based pedagogies, and provides a look forward to a new way of conceiving STEM Education. It presents a literature review of existing best practice in STEM education, both in Australia and internationally. It also presents theoretical and pedagogical discussions that outlines a new approach to STEM Education, based on a four-year, longitudinal, Early Years project. It provides educational frameworks for educators' use to enhance student learning in STEM, both in formal school contexts and beyond. This book focuses on a number of core themes in the research literature, including STEM education policy (nationally and internationally); the economic, social and political implication of STEM Education; the nexus between digital technologies, STEM, and play based pedagogies; the confidence and competence of early childhood educators and their professional development requirements; STEM education beyond formal schooling; and a new pedagogical approach to STEM education.
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. The text features research-based resources, examples of field-tested activities, and highlights from the classroom.