Om pædagogisk neurovidenskab. Hvad kan undervisere lære af kognitiv hjerneforskning og omvendt. Med praktiske eksempler fra klasseværelset. Henvender sig til undervisere, forældre, politikere m.fl.
The Brain-Based Classroom translates findings from educational neuroscience into a new paradigm of practices suitable for any teacher. The human brain is a site of spectacular capacity for joy, motivation, and personal satisfaction, but how can educators harness its potential to help children reach truly fulfilling goals? Using this innovative collection of brain-centric strategies, teachers can transform their classrooms into deep learning spaces that support their students through self-regulation and mindset shifts. These fresh insights will help teachers resolve classroom management issues, prevent crises and disruptive behaviors, and center social-emotional learning and restorative practices.
Understanding how the brain learns helps teachers do their jobs more effectively. Primary researchers share the latest findings on the learning process and address their implications for educational theory and practice. Explore applications, examples, and suggestions for further thought and research; numerous charts and diagrams; strategies for all subject areas; and new ways of thinking about intelligence, academic ability, and learning disability.
Foreword by Baroness Susan Greenfield CBE. In Neuroscience for Teachers: Applying Research Evidence from Brain Science, Richard Churches, Eleanor Dommett and Ian Devonshire expertly unpack, in an easy-to-read and instantly useable way, what every teacher needs to know about the brain and how we really learn and what that suggests for how they should teach. Everyone is curious about the brain including your learners! Not only can knowing more about the brain be a powerful way to understand what happens when your pupils and, of course, you pick up new knowledge and skills, but it can also offer a theoretical basis for established or new classroom practice. And as the field of neuroscience uncovers more of nature's secrets about the way we learn and further augments what we already know about effective teaching this book advocates more efficient pedagogies rooted in a better understanding and application of neuroscience in education. By surveying a wide range of evidence in specific areas such as metacognition, memory, mood and motivation, the teenage brain and how to cater for individual differences, Neuroscience for Teachers shares relevant, up-to-date information to provide a suitable bridge for teachers to transfer the untapped potential of neuroscientific findings into practical classroom approaches. The key issues, challenges and research are explained in clear language that doesn't assume a prior level of knowledge on the topic that would otherwise make it inaccessible therefore enabling more teachers to better comprehend the lessons from neuroscience while the authors also take care to expose the ways in which 'neuromyths' can arise in education in order to help them avoid these pitfalls. Laid out in an easy-to-use format, each chapter features: 'Research Zones' highlighting particular pieces of research with a supplementary insight into the area being explored; 'Reflection' sections that give you something to think about, or suggest something you might try out in the classroom; and concluding 'Next steps' that outline how teachers might incorporate the findings into their own practice. The authors have also included a glossary of terms covering the book's technical vocabulary to aid the development of teachers' literacy in the field of neuroscience. Packed with examples and research-informed tips on how to enhance personal effectiveness and improve classroom delivery, Neuroscience for Teachers provides accessible, practical guidance supported by the latest research evidence on the things that will help your learners to learn better. Suitable for LSAs, NQTs, teachers, middle leaders, local authority advisers and anyone working with learners.
Educational Neuroscience presents a series of readings from educators, psychologists, and neuroscientists that explore the latest findings in developmental cognitive neurosciences and their potential applications to education. Represents a new research area with direct relevance to current educational practices and policy making Features individual chapters written collaboratively by educationalist, psychologists, and neuroscientists to ensure maximum clarity and relevance to a broad range of readers Edited by a trio of leading academics with extensive experience in the field
The 'BrainCanDo' Handbook of Teaching and Learning provides teachers and school leaders with a concise summary of how some of the latest research in educational neuroscience and psychology can improve learning outcomes. It aims to create a mechanism through which our growing understanding of the brain can be applied in the world of education. Subjects covered include memory, social development, mindsets and character. Written by practising teachers working in collaboration with researchers, the chapters provide a toolkit of practical ideas which incorporate evidence from psychology and neuroscience into teaching practice with the aim of improving educational outcomes for all. By increasing both teachers’ and pupils’ understanding of the developing brain, ‘BrainCanDo’ aims to improve cognitive performance and attainment, foster a love of learning and enable a healthy and productive approach to personal development. This book will appeal to educators, primarily those working in secondary schools, but also those within higher and primary school education. It will also be of interest to students of education, professionals looking to enhance their teaching and researchers working in the fields of education, psychology and neuroscience.
The field of educational neuroscience uses new insights about the neural mechanisms of learning to improve educational practices and outcomes. The first volume to bring together the latest knowledge on the development of educational neuroscience from a life-span perspective, this important text offers state of the art, authoritative research findings in educational neuroscience before providing evidence-based recommendations for classroom practice. Thomas, Mareschal, Dumontheil, and the team of expert international contributors assembled in this volume thoroughly explore four main themes throughout the book. The first theme is individual differences, or what makes children perform better or worse in the classroom. The second theme is the nature of individual differences at different stages in development, from early years into adulthood. The third theme addresses cognitive enhancement, summarizing research that has investigated activities that might give general benefits to cognition. And the fourth theme considers the translation of research findings into classroom practices, discussing broader ethical issues raised by educational neuroscience, and what teachers need to know about neuroscience to enhance their day-to-day practice. Specific topics explored include neuropsychological perspectives on socioeconomic disparities in educational achievement, reading difficulties, phonological skills, executive function, and emotional development. Educational Neuroscience is essential reading for researchers and graduate students of educational psychology, developmental science, developmental psychology, and cognitive psychology, especially those specializing in emotion regulation.
Examine the basic principles of differentiation in light of what current research on educational neuroscience has revealed. This research pool offers information and insights that can help educators decide whether certain curricular, instructional, and assessment choices are likely to be more effective than others. Learn how to implement differentiation so that it achieves the desired result of shared responsibility between teacher and student.
The human brain, as described by Crick, is nothing more than a complex network of neurons; a statement which is as reductive as it is fascinating. There has been a growing interest in neuroscience in relation to education. Schools are eager to understand how the brain functions to improve teaching and learning. The central challenge for educational neuroscience lies in using brain research to inform educational practices and understand the cognitive processes behind learning. Imaging has opened up new research territories, including brain exploration. Learning appears, in fact, to occur primarily through changes in the strength and number of connections between existing neurons, a process called synaptic plasticity. Neural pathways, learning and “new knowledge” are optimized when ideas are considered from a multidimensional approach.