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.
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
'Neuroscience in Education' brings together an international group of leading psychologists, neuroscientists, educationalists and geneticists to critically review new developments, examining the science behind these practices, the validity of the theories on which they are based, and whether they work.
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.
This practical resource draws on the best of neuroscience to inform decision-making about digital learning. We live in unprecedented times that have pushed schools to make many decisions that have been postponed for years. For the first time since the inception of public education, teachers have been invited to redesign the learning landscape by integrating an intelligent selection of digital educational resources and changing pedagogical approaches based on information from the learning sciences. This handbook will help teachers make the most of this opportunity by showing them how to use digital tools to differentiate learning, employ alternative options to standardized testing, personalize learning, prioritize social-emotional skills, and inspire students to think more critically. The author identifies some gems in quality teaching that are amplified in online contexts, including 40 evidence-informed pedagogies from the learning sciences. This book will help all educators move online teaching and learning to new levels of confidence and success. Book Features: Provides quick references to key planning tools like decision-trees, graphics, app recommendations, and step-by-step directions to help teachers create their own online learning courses.Guides teachers through a 12-step model for instructional design that meets both national and international standards.Shows educators how to use an all-new Digital Resource Taxonomy to select resources, and how to research and keep them up to date.Explains why good instructional design and educational technology are complementary with best practices in learning sciences like Mind, Brain, and Education Science.Shares ways teachers can leverage technology to create more time for the personalized aspects of learning. Shows educators how to design online courses with tools that let all students begin at their own starting points and how to differentiate homework.Offers evidence-informed pedagogies to make online intimate and authentic for students.
Shows how learning from experience complements the academic college curriculum, is brain-smart, and helps students to succeed during and after college by discovering their passion.
In the past ten years, there has been growing interest in applying our knowledge of the functioning of the human brain to the field of education-including reading, learning, language and mathematics. This has resulted in the development of a number of new practices in education-some good, some bad and some just crazy. The 'good' is nearly always sound cognitive research that has clear implications for educational practice. The 'bad' is the use of neuroscience jargon to lure the unwary and to give an apparent scientific aura to flawed educational programs with no evidence base and which no reputable neuroscientist would endorse. The 'ugly' is simplistic interpretation and misapplication of cognitive theories leading to errors in their application. More and better could be done if neuroscientists and educationalists acknowledge the limits of their disciplines and start listening to each other. Neuroscience in Education brings together an international group of leading psychologists, neuroscientists, educationalists and geneticists to critically review some of these new developments, examining the science behind these practices, the validity of the theories on which they are based, and whether they work. It will be fascinating reading for anyone involved in education, including teachers, psychologists, neuroscientists, and policy makers as well as interested parents.
This volume makes a philosophical contribution to the application of neuroscience in education. It frames neuroscience research in novel ways around educational conceptualizing and practices, while also taking a critical look at conceptual problems in neuroeducation and at the economic reasons driving the mind-brain education movement. It offers alternative approaches for situating neuroscience in educational research and practice, including non-reductionist models drawing from Dewey and phenomenological philosophers such as Martin Heidegger and Merleau-Ponty. The volume gathers together an international bevy of leading philosophers of education who are in a unique position to contribute conceptually rich and theoretically framed insight on these new developments. The essays form an emerging dialogue to be used within philosophy of education as well as neuroeducation, educational psychology, teacher education and curriculum studies.