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Over recent years the field of Science of Learning has increased dramatically. Unfortunately, despite claims that this work will greatly impact education, very little research makes it into teacher practice. Although the reasons for this are varied, a primary concern is the lack of a proper translation framework. From the Laboratory to the Classroom aims to consolidate information from many different research disciplines and correlate learning principles with known classroom practices in order to establish explanatory foundations for successful strategies that can be implemented into the classroom. It combines theoretical research with the diverse and dynamic classroom environment to deliver original, effective and specific teaching and learning strategies and address questions concerning what possible mechanisms are at play as people learn. Divided into five sections, chapters cover: A Framework for Organizing and Translating Science of Learning Research Motivation and Attention as Foundations for Student Learning Memory and Metamemory Considerations in the Instruction of Human Beings Science of Learning in Digital Learning Environments Educational Approaches for Students Experiencing Learning Difficulties and Developmental Characteristics of Gifted Children Brain, Behaviour and Classroom Practice Forging Research/Practice Relationships via Laboratory Schools This fascinating text gathers an international team of expert scientists, teachers, and administrators to present a coherent framework for the vital translation of laboratory research for educational practice. Applying the Science of Learning framework to a number of different educational domains, it will be an essential guide for any student or researcher in education, educational psychology, neuropsychology, educational technology and the emergent field of neuroeducation.
This expansive and practical textbook contains organic chemistry experiments for teaching in the laboratory at the undergraduate level covering a range of functional group transformations and key organic reactions.The editorial team have collected contributions from around the world and standardized them for publication. Each experiment will explore a modern chemistry scenario, such as: sustainable chemistry; application in the pharmaceutical industry; catalysis and material sciences, to name a few. All the experiments will be complemented with a set of questions to challenge the students and a section for the instructors, concerning the results obtained and advice on getting the best outcome from the experiment. A section covering practical aspects with tips and advice for the instructors, together with the results obtained in the laboratory by students, has been compiled for each experiment. Targeted at professors and lecturers in chemistry, this useful text will provide up to date experiments putting the science into context for the students.
Laboratory experiences as a part of most U.S. high school science curricula have been taken for granted for decades, but they have rarely been carefully examined. What do they contribute to science learning? What can they contribute to science learning? What is the current status of labs in our nation�s high schools as a context for learning science? This book looks at a range of questions about how laboratory experiences fit into U.S. high schools: What is effective laboratory teaching? What does research tell us about learning in high school science labs? How should student learning in laboratory experiences be assessed? Do all student have access to laboratory experiences? What changes need to be made to improve laboratory experiences for high school students? How can school organization contribute to effective laboratory teaching? With increased attention to the U.S. education system and student outcomes, no part of the high school curriculum should escape scrutiny. This timely book investigates factors that influence a high school laboratory experience, looking closely at what currently takes place and what the goals of those experiences are and should be. Science educators, school administrators, policy makers, and parents will all benefit from a better understanding of the need for laboratory experiences to be an integral part of the science curriculum-and how that can be accomplished.
Laurel Tanner examines closely the practices and policies of Dewey’s Laboratory School from their inception to the current day. Dewey’s Laboratory School: Lessons for Today provides a wealth of practical guidance on how schools today can introduce Deweyian reforms the way they were originally—and successfully—practiced. It is filled with fascinating excerpts from the school’s teachers’ reports and other original documents. It will be an indispensable text in graduate courses in foundations, curriculum and instruction, early childhood education, instructional supervision, and philosophy of education and for professors, researchers, and general readers in these fields. Selected Topics: Dewey’s Developmental Curriculum—An Idea for the Twenty-First Century • Dewey’s School as a Learning Community • What Have We Learned from Dewey’s School? • Looking at Reform the Dewey Way “The most readable account published of Dewey’s Laboratory School and its lessons for American schools today.” —Elliot W. Eisner, Chair, Curriculum Studies and Teacher Education, Stanford University School of Education “In this fascinating account of the Dewey School, we can almost imagine ourselves as teachers in those fabled classrooms.” —Vivian Gussin Paley, Author and teacher “Laurel Tanner has written the book we should have had decades ago.” —John I. Goodlad, Co-Director, Center for Educational Renewal and President, Institute for Educational Inquiry “Tanner highlights what can be learned today from the setbacks and successes of John Dewey and the teachers at the [Laboratory School at the] University of Chicago.” —Lilian G. Katz, Director, ERIC Clearinghouse on Elementary and Early Childhood Education
Digital technologies are transforming economies and societies around the world. As such, markets demand new types of skills and competences that students must learn in order to be successful. IT and emerging technologies can be integrated into educational institutions to improve teaching methods and academic results as well as digital literacy. IT and the Development of Digital Skills and Competences in Education compiles critical research into one comprehensive reference source that explores the new demands of labor markets in the digital economy, how educational institutions can respond to these new opportunities and threats, the development of new teaching and learning methods, and the development of digital skills and competences. Through new theories, research findings, and case studies, the book seeks to incite new perspectives to understandings of the challenges and opportunities of the utilization of IT in the education sector around the world. Due to innovative topics that include digital competence, disruptive technologies, and digital transformation, this book is an ideal reference for academicians, directors of schools, vice-chancellors, education and IT experts, CEOs, policymakers in the field of education and IT, researchers, and students.
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.
Modern technology has infiltrated many facets of society, including educational environments. Through the use of virtual learning, educational systems can become more efficient at teaching the student population and break down cost and distance barriers to reach populations that traditionally could not afford a good education. Virtual Reality in Education: Breakthroughs in Research and Practice is an essential reference source on the uses of virtual reality in K-12 and higher education classrooms with a focus on pedagogical and instructional outcomes and strategies. Highlighting a range of pertinent topics such as immersive virtual learning environments, virtual laboratories, and distance education, this publication is an ideal reference source for pre-service and in-service teachers, school administrators, principles, higher education faculty, K-12 instructors, policymakers, and researchers interested in virtual reality incorporation in the classroom.
In a remote laboratory, the user performs a real experiment without being in front of the equipment, performing remote experiments mediated by the Internet. Remote Laboratories: Empowering STEM Education with Technology is the first book to cover this radical redistribution of experimentation capacity as a whole.This book also covers using remote experiments in the classroom, the advantages of remote experimentation, the challenges faced, and opportunities for innovation when using a remote lab.The book characterizes and explains remote experiments and connects them with the curricula of subjects and prospects for teaching/learning scenarios. It further provides evidence for the positive effect of remote experimentation in the student learning process. This coverage is supplemented by an exhaustive list of remote experiments conducted around the world.
Biological sciences have been revolutionized, not only in the way research is conductedâ€"with the introduction of techniques such as recombinant DNA and digital technologyâ€"but also in how research findings are communicated among professionals and to the public. Yet, the undergraduate programs that train biology researchers remain much the same as they were before these fundamental changes came on the scene. This new volume provides a blueprint for bringing undergraduate biology education up to the speed of today's research fast track. It includes recommendations for teaching the next generation of life science investigators, through: Building a strong interdisciplinary curriculum that includes physical science, information technology, and mathematics. Eliminating the administrative and financial barriers to cross-departmental collaboration. Evaluating the impact of medical college admissions testing on undergraduate biology education. Creating early opportunities for independent research. Designing meaningful laboratory experiences into the curriculum. The committee presents a dozen brief case studies of exemplary programs at leading institutions and lists many resources for biology educators. This volume will be important to biology faculty, administrators, practitioners, professional societies, research and education funders, and the biotechnology industry.
During the second half of the twentieth century, Ann Brown was one of the world's premier researchers into the cognitive development of young children. Sponsored by the Spencer Foundation, this edited festschrift honors her work and memory by bringing together a collection of original studies that extend many of the theories and themes of Brown's earlier work. Most of the contributors are researchers who once worked with Brown.