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This book is about imaginative approaches to teaching and learning school science. Its central premise is that science learning should reflect the nature of science, and therefore be approached as an imaginative/creative activity. As such, the book can be seen as an original contribution of ideas relating to imagination and creativity in science education. The approaches discussed in the book are storytelling, the experience of wonder, the development of ‘romantic understanding’, and creative science, including science through visual art, poetry and dramatization. However, given the perennial problem of how to engage students (of all ages) in science, the notion of ‘aesthetic experience’, and hence the possibility for students to have more holistic and fulfilling learning experiences through the aforementioned imaginative approaches, is also discussed. Each chapter provides an in-depth discussion of the theoretical background of a specific imaginative approach (e.g., storytelling, ‘wonder-full’ science), reviews the existing empirical evidence regarding its role in the learning process, and points out its implications for pedagogy and instructional practices. Examples from physical science illustrating its implementation in the classroom are also discussed. In distinguishing between ‘participation in a science activity’ and ‘engagement with science ideas per se’, the book emphasizes the central role of imaginative engagement with science content knowledge, and thus the potential of the recommended imaginative approaches to attract students to the world of science.
Creative teaching has the potential to inspire deep learning, using inventive activities and stimulating contexts that can capture the imagination of children. This book enables you to adopt a creative approach to the methods and content of your primary science teaching practice and confidently develop as a science educator. Key aspects of science teaching are discussed, including: planning for teaching and learning assessing primary science cross-curricular approaches the intelligent application of technology sustainability education outdoor learning Coverage is supported by illustrative examples, encouraging you to look at your own teaching practice, your local community and environment, your own interests and those of your children to deepen your understanding of what constitutes good science teaching in primary schools. This is essential reading for students on primary initial teacher education courses, on both university-based (BEd, BA with QTS, PGCE) and schools-based (School Direct, SCITT) routes into teaching. Dr Roger Cutting is an Associate Professor in Education at the Institute of Education at Plymouth University. Orla Kelly is a Lecturer in Social, Environmental and Scientific Education in the Church of Ireland College of Education.
Young people learn most readily when their imaginations are engaged and teachers teach most successfully when they are able to see their subject matter from their pupils' point of view. It is, however, difficult to define imagination in practice and even more difficult to make full use of its potential. In this original and stimulating book, Kieran Egan, winner of the prestigous Grawemeyer award for education in 1991, discusses what imagination really means for children and young people in the middle years and what its place should be in the midst of the normal demands of classroom teaching and learning. Egan uses a bright and witty style to move from a brief history of the ways in which imagination has been regarded over the years, through a general discussion of the links between learning and imagination. A selection of sample lesson plans show teachers how they can encourage effective learning through stimulating pupils' imaginations in a variety of curriculum areas, including maths, science, social studies and language work.
This book offers an energizing Christian vision for the art of teaching. The authors — experienced teachers themselves — encourage teacher-readers to reanimate their work by imagining it differently. David Smith and Susan Felch, along with Barbara Carvill, Kurt Schaefer, Timothy Steele, and John Witvliet, creatively use three metaphors — journeys and pilgrimages, gardens and wilderness, buildings and walls — to illuminate a fresh vision of teaching and learning. Stretching beyond familiar clichés, they infuse these metaphors with rich biblical echoes and theological resonances that will inform and inspire Christian teachers everywhere.
Introduction : imagination underfoot -- A tool kit for learning : story, metaphor, binary opposites, rhyme, rhythm, and pattern, jokes and humor, mental imagery, gossip, play, mystery, embryonic tools of literacy -- A tool kit for literacy : sense of reality, extremes of experience and limits of reality, association with heroes, sense of wonder, collectuins and hobbies, knowledge and human meaning, narrative understanding, revolt and idealism, changing the context, literate eye, embryonic tools of theoretic thinking -- A tool kit for theoretic thinking : sense of abstract reality, sense of agency, grasp of general ideas and their anomalies, search for authority and truth, meta-narrative understanding -- Conclusion : imagination every day -- Appendix A. Mythic framework -- Appendix B. Romantic framework -- Appendix C. Philosophic framework.
Over the past century, educational psychologists and researchers have posited many theories to explain how individuals learn, i.e. how they acquire, organize and deploy knowledge and skills. The 20th century can be considered the century of psychology on learning and related fields of interest (such as motivation, cognition, metacognition etc.) and it is fascinating to see the various mainstreams of learning, remembered and forgotten over the 20th century and note that basic assumptions of early theories survived several paradigm shifts of psychology and epistemology. Beyond folk psychology and its naïve theories of learning, psychological learning theories can be grouped into some basic categories, such as behaviorist learning theories, connectionist learning theories, cognitive learning theories, constructivist learning theories, and social learning theories. Learning theories are not limited to psychology and related fields of interest but rather we can find the topic of learning in various disciplines, such as philosophy and epistemology, education, information science, biology, and – as a result of the emergence of computer technologies – especially also in the field of computer sciences and artificial intelligence. As a consequence, machine learning struck a chord in the 1980s and became an important field of the learning sciences in general. As the learning sciences became more specialized and complex, the various fields of interest were widely spread and separated from each other; as a consequence, even presently, there is no comprehensive overview of the sciences of learning or the central theoretical concepts and vocabulary on which researchers rely. The Encyclopedia of the Sciences of Learning provides an up-to-date, broad and authoritative coverage of the specific terms mostly used in the sciences of learning and its related fields, including relevant areas of instruction, pedagogy, cognitive sciences, and especially machine learning and knowledge engineering. This modern compendium will be an indispensable source of information for scientists, educators, engineers, and technical staff active in all fields of learning. More specifically, the Encyclopedia provides fast access to the most relevant theoretical terms provides up-to-date, broad and authoritative coverage of the most important theories within the various fields of the learning sciences and adjacent sciences and communication technologies; supplies clear and precise explanations of the theoretical terms, cross-references to related entries and up-to-date references to important research and publications. The Encyclopedia also contains biographical entries of individuals who have substantially contributed to the sciences of learning; the entries are written by a distinguished panel of researchers in the various fields of the learning sciences.
The Creative Classroom presents an original, compelling vision of schools where teaching and learning are centered on creativity. Drawing on the latest research as well as his studies of jazz and improvised theater, Sawyer describes curricula and classroom practices that will help educators get started with a new style of teaching, guided improvisation, where students are given freedom to explore within structures provided by the teacher. Readers will learn how to improve learning outcomes in all subjects—from science and math to history and language arts—by helping students master content-area standards at the same time as they increase their creative potential. This book shows how teachers and school leaders can work together to overcome all-too-common barriers to creative teaching—leadership, structure, and culture—and collaborate to transform schools into creative organizations. Book Features: Presents a research-based approach to teaching and learning for creativity. Identifies which learning outcomes support creativity and offers practical advice for how to teach for these outcomes. Shows how students learn content-area knowledge while also learning to be creative with that knowledge. Describes principles and techniques that teachers can use in all subjects. Demonstrates that a combination of school structures, cultures, incentives, and leadership are needed to support creative teaching and learning.
How can you unlock your own creativity to help children learn science creatively? How do you bring the world of ‘real science’ into the classroom? Where does science fit in a creative curriculum? This second edition of Teaching Science Creatively has been fully updated to reflect new research, initiatives and developments in the field. It offers innovative starting points to enhance your teaching and highlights curiosity, observation, exploration and enquiry as central components of children’s creative learning in science. Illustrated throughout with examples from the classroom and beyond, the book explores how creative teaching can harness children’s sense of wonder about the world around them. With easily accessible chapters, it offers a comprehensive introduction to the core elements of creative science learning, supporting both teacher and child in developing scientific concepts and skills. The book explores key issues such as: • the links between scientific and creative processes • how to teach creatively, and for creativity • the role of play in early scientific learning • developing scientific understanding through drama (new) • using the outdoors in science • how theories of learning relate to children’s creative development • teaching science topics in innovative and creative ways – games, drama, role play, puppets, mini-safaris and welly walks! Stimulating and accessible, with contemporary and cutting-edge practice at the forefront, Teaching Science Creatively introduces fresh ideas to support and motivate both new and experienced primary teachers. It is an essential purchase for any professional who wishes to incorporate creative approaches to teaching science in their classroom.
"This timely and innovative book encourages us to ‘flip the classroom’ and empower our students to become content creators. Through creating digital media, they will not only improve their communication skills, but also gain a deeper understanding of core scientific concepts. This book will inspire science academics and science teacher educators to design learning experiences that allow students to take control of their own learning, to generate media that will stimulate them to engage with, learn about, and become effective communicators of science." Professors Susan Jones and Brian F. Yates, Australian Learning and Teaching Council Discipline Scholars for Science "Represents a giant leap forward in our understanding of how digital media can enrich not only the learning of science but also the professional learning of science teachers." Professor Tom Russell, Queen’s University, Ontario, Canada "This excellent edited collection brings together authors at the forefront of promoting media creation in science by children and young people. New media of all kinds are the most culturally significant forms in the lives of learners and the work in this book shows how they can move between home and school and provide new contexts for learning as well as an understanding of key concepts." Dr John Potter, London Knowledge Lab, Dept. of Culture, Communication and Media, University College London, UK Student-generated Digital Media in Science Education supports secondary school teachers, lecturers in universities and teacher educators in improving engagement and understanding in science by helping students unleash their enthusiasm for creating media within the science classroom. Written by pioneers who have been developing their ideas in students’ media making over the last 10 years, it provides a theoretical background, case studies, and a wide range of assignments and assessment tasks designed to address the vital issue of disengagement amongst science learners. It showcases opportunities for learners to use the tools that they already own to design, make and explain science content with five digital media forms that build upon each other— podcasts, digital stories, slowmation, video and blended media. Each chapter provides advice for implementation and evidence of engagement as learners use digital tools to learn science content, develop communication skills, and create science explanations. A student team’s music video animation of the Krebs cycle, a podcast on chemical reactions presented as commentary on a boxing match, a wiki page on an entry in the periodic table of elements, and an animation on vitamin D deficiency among hijab-wearing Muslim women are just some of the imaginative assignments demonstrated. Student-generated Digital Media in Science Education illuminates innovative ways to engage science learners with science content using contemporary digital technologies. It is a must-read text for all educators keen to effectively convey the excitement and wonder of science in the 21st century.