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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 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.
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.
Successfully leverage technology to enhance classroom practices with this practical resource. The authors demonstrate the importance of educational technology, which is quickly becoming an essential component in effective teaching. Included are over 100 organized classroom strategies, vignettes that show each section’s strategies in action, and a glossary of classroom-relevant technology terms. Key research is summarized and translated into classroom recommendations.
Science, engineering, and technology permeate nearly every facet of modern life and hold the key to solving many of humanity's most pressing current and future challenges. The United States' position in the global economy is declining, in part because U.S. workers lack fundamental knowledge in these fields. To address the critical issues of U.S. competitiveness and to better prepare the workforce, A Framework for K-12 Science Education proposes a new approach to K-12 science education that will capture students' interest and provide them with the necessary foundational knowledge in the field. A Framework for K-12 Science Education outlines a broad set of expectations for students in science and engineering in grades K-12. These expectations will inform the development of new standards for K-12 science education and, subsequently, revisions to curriculum, instruction, assessment, and professional development for educators. This book identifies three dimensions that convey the core ideas and practices around which science and engineering education in these grades should be built. These three dimensions are: crosscutting concepts that unify the study of science through their common application across science and engineering; scientific and engineering practices; and disciplinary core ideas in the physical sciences, life sciences, and earth and space sciences and for engineering, technology, and the applications of science. The overarching goal is for all high school graduates to have sufficient knowledge of science and engineering to engage in public discussions on science-related issues, be careful consumers of scientific and technical information, and enter the careers of their choice. A Framework for K-12 Science Education is the first step in a process that can inform state-level decisions and achieve a research-grounded basis for improving science instruction and learning across the country. The book will guide standards developers, teachers, curriculum designers, assessment developers, state and district science administrators, and educators who teach science in informal environments.
Across the world STEM (learning and work in Science, Technology, Engineering and Mathematics) has taken central importance in education and the economy in a way that few other disciplines have. STEM competence has become seen as key to higher productivity, technological adaptation and research-based innovation. No area of educational provision has a greater current importance than the STEM disciplines yet there is a surprising dearth of comprehensive and world-wide information about STEM policy, participation, programs and practice. The Age of STEM is a state of the art survey of the global trends and major country initiatives in STEM. It gives an international overview of issues such as: STEM strategy and coordination curricula, teaching and assessment women in STEM indigenous students research training STEM in the graduate labour markets STEM breadth and STEM depth The individual chapters give comparative international analysis as well as a global overview, particularly focusing on the growing number of policies and practices in mobilising and developing talent in the STEM fields. The book will be of particular interest to anyone involved in educational policy, those in education management and leaders in both schooling and tertiary education. It will have a wider resonance among practitioners in the STEM disciplines, particularly at university level, and for those interested in contemporary public policy.
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.
This booklet includes the full text of the ISTE Standards for Students, along with the Essential Conditions, profiles and scenarios.
This collection examines issues of agency, power, politics and identity as they relate to science and technology and education, within contemporary settings. Social, economic and ecological critique and reform are examined by numerous contributing authors, from a range of international contexts. These chapters examine pressing pedagogical questions within socio-scientific contexts, including petroleum economies, food justice, health, environmentalism, climate change, social media and biotechnologies. Readers will discover far reaching inquiries into activism as an open question for science and technology education, citizenship and democracy. The authors call on the work of prominent scholars throughout the ages, including Bourdieu, Foucault, Giroux, Jasanoff, Kierkegaard, Marx, Nietzsche, Rancière and Žižek. The application of critical theoretical scholarship to mainstream practices in science and technology education distinguishes this book, and this deep, theoretical treatment is complemented by many grounded, more pragmatic exemplars of activist pedagogies. Practical examples are set within the public sphere, within selected new social movements, and also within more formal institutional settings, including elementary and secondary schools, and higher education. These assembled discussions provide a basis for a more radically reflexive reworking of science and technology education. Educational policy makers, science education scholars, and science and technology educators, amongst others, will find this work thought-provoking, instructive and informative.
Drawing on data generated by the EU’s Interests and Recruitment in Science (IRIS) project, this volume examines the issue of young people’s participation in science, technology, engineering and mathematics education. With an especial focus on female participation, the chapters offer analysis deploying varied theoretical frameworks, including sociology, social psychology and gender studies. The material also includes reviews of relevant research in science education and summaries of empirical data concerning student choices in STEM disciplines in five European countries. Featuring both quantitative and qualitative analyses, the book makes a substantial contribution to the developing theoretical agenda in STEM education. It augments available empirical data and identifies strategies in policy-making that could lead to improved participation—and gender balance—in STEM disciplines. The majority of the chapter authors are IRIS project members, with additional chapters written by specially invited contributors. The book provides researchers and policy makers alike with a comprehensive and authoritative exploration of the core issues in STEM educational participation.
Science and technology education research, influenced by inquiry-based thinking, not only concentrates on the teaching of scientific concepts and addressing any misconceptions that learners may hold, but also emphasizes the ways in which students learn, and seeks avenues to achieve better learning through creativity. New developments in science and technology education rely on a wide variety of methods, borrowed from various fields of science, such as computer science, cognitive science, sociology and neurosciences. This book presents papers from the first international conference on “New Developments in Science and Technology Education” that was structured around seven main thematic axes: namely modern pedagogies in science and technology education; new technologies in science and technology education; assessment in science and technology education; teaching and learning in the light of inquiry learning methods; neuroscience and science education; conceptual understanding and conceptual change in science; and interest, attitude and motivation in science. It explores the beneficial impact of pedagogically updated practices and approaches in the teaching of science concepts, and elaborates on future challenges and emerging issues that concern science and technology education. By pointing out new research directions, the volume will inform educational practices and bridge the gap between research and practice, providing new information, ideas and perspectives. It will also promote discussions and networking among scientists and stakeholders from worldwide scientific fields, such as researchers, professors, students, and companies developing educational software.