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Author: Marcel Veenman
Publisher:
ISBN:
Category : Education
Languages : en
Pages : 214
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Book Description
For some decades, theoretical and empirical research has focused on the phenomenon of metacognition and its overwhelming importance to human learning and performance. The real growth in theoretical and empirical studies about metacognition started with the work of Flavell at the end of the 1970s in the context of research on metamemory. The metacognitive concept has been very successful stimulating a lot of studies. The metacognitive research on reading peaked in the 1980s and has levelled since. Metacognition has more recently also been applied to mathematics. Metacognition can be differentiated into two central components, namely metacognitive knowledge and metacognitive processes or skills. In the same vein, Brown (1978) distinguished metacognitive knowledge about the interaction between person, task, and strategies characteristics from the regulation of one's own cognitive activities. The purpose of this book is to help to summarise and clarify some of the issues on the conceptualisation, the assessment and the training of metacognition on mathematical issues in learners with and without mathematics learning disabilities. metacognition in mathematics performance.
Author: Marcel Veenman
Publisher:
ISBN:
Category : Education
Languages : en
Pages : 214
Get Book
Book Description
For some decades, theoretical and empirical research has focused on the phenomenon of metacognition and its overwhelming importance to human learning and performance. The real growth in theoretical and empirical studies about metacognition started with the work of Flavell at the end of the 1970s in the context of research on metamemory. The metacognitive concept has been very successful stimulating a lot of studies. The metacognitive research on reading peaked in the 1980s and has levelled since. Metacognition has more recently also been applied to mathematics. Metacognition can be differentiated into two central components, namely metacognitive knowledge and metacognitive processes or skills. In the same vein, Brown (1978) distinguished metacognitive knowledge about the interaction between person, task, and strategies characteristics from the regulation of one's own cognitive activities. The purpose of this book is to help to summarise and clarify some of the issues on the conceptualisation, the assessment and the training of metacognition on mathematical issues in learners with and without mathematics learning disabilities. metacognition in mathematics performance.
Author: Zemira Mevarech
Publisher: OCDE
ISBN:
Category : Business & Economics
Languages : en
Pages : 204
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Book Description
How can mathematics education foster development of the skills required by innovative societies? Mathematics education is heavily emphasized worldwide, but it is still considered to be a stumbling block for many students. While there is near consensus that mathematics problems appropriate for the twenty-first century should be complex, unfamiliar, and nonroutine (CUN), most of the textbooks still include mainly routine problems based on the application of ready-made algorithms. The time has come to introduce innovative instructional methods to enhance mathematics education and students' ability to solve CUN tasks. Metacognitive pedagogies, which explicitly train students to think about their thinking, can play a key role. These pedagogies can be used to improve not just academic achievement (for example, content knowledge and the ability to handle unfamiliar problems) but also affective outcomes such as anxiety and motivation. The strong relationship between metacognition and schooling outcomes has implications for both the education community and policymakers.
Author: Hope J. Hartman
Publisher: Springer Science & Business Media
ISBN: 9401722439
Category : Psychology
Languages : en
Pages : 290
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Book Description
Unique and stimulating, this book addresses metacognition in both the neglected area of teaching and the more well-established area of learning. It addresses domain-general and domain-specific aspects of metacognition, including applications to the particular subjects of reading, speaking, mathematics, and science. This collection spans theory, research and practice related to metacognition in education at all school levels, from elementary through university.
Author: Yehudit Judy Dori
Publisher: Springer
ISBN: 3319666592
Category : Science
Languages : en
Pages : 380
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Book Description
This book addresses the point of intersection between cognition, metacognition, and culture in learning and teaching Science, Technology, Engineering, and Mathematics (STEM). We explore theoretical background and cutting-edge research about how various forms of cognitive and metacognitive instruction may enhance learning and thinking in STEM classrooms from K-12 to university and in different cultures and countries. Over the past several years, STEM education research has witnessed rapid growth, attracting considerable interest among scholars and educators. The book provides an updated collection of studies about cognition, metacognition and culture in the four STEM domains. The field of research, cognition and metacognition in STEM education still suffers from ambiguity in meanings of key concepts that various researchers use. This book is organized according to a unique manner: Each chapter features one of the four STEM domains and one of the three themes—cognition, metacognition, and culture—and defines key concepts. This matrix-type organization opens a new path to knowledge in STEM education and facilitates its understanding. The discussion at the end of the book integrates these definitions for analyzing and mapping the STEM education research. Chapter 4 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com
Author: Mevarech Zemira
Publisher: OECD Publishing
ISBN: 9264223568
Category :
Languages : en
Pages : 196
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Book Description
This report looks at a number of published studies on mathematics education that try to understand which education and skills are appropriate for innovative societies.
Author: ALAN H. SCHOENFELD
Publisher: Elsevier
ISBN: 1483295486
Category : Mathematics
Languages : en
Pages : 409
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Book Description
This book is addressed to people with research interests in the nature of mathematical thinking at any level, to people with an interest in "higher-order thinking skills" in any domain, and to all mathematics teachers. The focal point of the book is a framework for the analysis of complex problem-solving behavior. That framework is presented in Part One, which consists of Chapters 1 through 5. It describes four qualitatively different aspects of complex intellectual activity: cognitive resources, the body of facts and procedures at one's disposal; heuristics, "rules of thumb" for making progress in difficult situations; control, having to do with the efficiency with which individuals utilize the knowledge at their disposal; and belief systems, one's perspectives regarding the nature of a discipline and how one goes about working in it. Part Two of the book, consisting of Chapters 6 through 10, presents a series of empirical studies that flesh out the analytical framework. These studies document the ways that competent problem solvers make the most of the knowledge at their disposal. They include observations of students, indicating some typical roadblocks to success. Data taken from students before and after a series of intensive problem-solving courses document the kinds of learning that can result from carefully designed instruction. Finally, observations made in typical high school classrooms serve to indicate some of the sources of students' (often counterproductive) mathematical behavior.
Author: Anat Zohar
Publisher: Springer Science & Business Media
ISBN: 9789400721326
Category : Science
Languages : en
Pages : 280
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Book Description
Why is metacognition gaining recognition, both in education generally and in science learning in particular? What does metacognition contribute to the theory and practice of science learning? Metacognition in Science Education discusses emerging topics at the intersection of metacognition with the teaching and learning of science concepts, and with higher order thinking more generally. The book provides readers with a background on metacognition and analyses the latest developments in the field. It also gives an account of best-practice methodology. Expanding on the theoretical underpinnings of metacognition, and written by world leaders in metacognitive research, the chapters present cutting-edge studies on how various forms of metacognitive instruction enhance understanding and thinking in science classrooms. The editors strive for conceptual coherency in the various definitions of metacognition that appear in the book, and show that the study of metacognition is not an end in itself. Rather, it is integral to other important constructs, such as self-regulation, literacy, the teaching of thinking strategies, motivation, meta-strategies, conceptual understanding, reflection, and critical thinking. The book testifies to a growing recognition of the potential value of metacognition to science learning. It will motivate science educators in different educational contexts to incorporate this topic into their ongoing research and practice.
Author: Douglas J. Hacker
Publisher: Routledge
ISBN: 1135591946
Category : Education
Languages : en
Pages : 462
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Book Description
Providing comprehensive coverage of the theoretical bases of metacognition and its applications to educational practice, this compendium of focused and in-depth discussions from leading scholars in the field: represents an intersection of education, cognitive science, and technology; serves as a gateway to the literature for researchers and practitioners interested in one or more of the wide array of topics included; and sets the standard for scholarship for theoretical research and practical applications in this field. The Handbook of Metacognition in Education — covering Comprehension Strategies, Metacognitive Strategies, Metacomprehension, Writing, Science and Mathematics, Individual Differences, Self-Regulated Learning, Technology, Tutoring, and Measurement — is an essential resource for researchers, faculty, students, curriculum developers, teachers, and others interested in using research and theory on metacognition to guide and inform educational practice.
Author: Richard K Cohen
Publisher:
ISBN: 9781951075033
Category :
Languages : en
Pages : 256
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Book Description
Dive deep into the what and how of structured SELf-questioning--a powerful strategy you can use to support students academically, socially, and emotionally. This resource contains vital metacognitive strategies and skills that educators can immediately use in their classroom. Use this resource to help effective education thrive in your classroom: Grasp the severity of the stress and anxiety teachers and students face in schools and how metacognitive SELf-questioning can reduce both. Learn to implement effective SELf-questioning into instruction to foster social-emotional learning (SEL). Review scenarios that depict use of the SELf-questioning strategy in every content area and grade level. Gain insight into how advanced SELf-questioning can achieve transfer of learning in the classroom to any academic or social context. Autonomously customize and create your own SELf-question sets and apply them to any situation within or outside of school. Contents: Introduction Chapter 1: Metacognition and SELf-Questioning--The Underpinnings of the Strategy Chapter 2: Structured SELf-Questioning for Academic Problem Solving in Mathematics Chapter 3: Structured SELf-Questioning for Social Problem Solving Chapter 4: Structured SELf-Questioning in Reading Comprehension Chapter 5: Structured SELf-Questioning in Reading Decoding Chapter 6: Structured SELf-Questioning for Inquiry-Based Research Writing Chapter 7: Structured SELf-Questioning for Emotional Recognition Chapter 8: Structured SELf-Questioning for Emotional Regulation and Problem Solving Chapter 9: Transfer Theory and SELf-Questioning Chapter 10: Structured SELf-Questioning for Social Studies Chapter 11: Structured SELf-Questioning and Metacognitive Components in Science Chapter 12: Autonomous Use of SELf-Questioning and Metacognition Epilogue
Author: Alan H. Schoenfeld
Publisher: Routledge
ISBN: 1136461841
Category : Education
Languages : en
Pages : 316
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Book Description
This volume is a result of mathematicians, cognitive scientists, mathematics educators, and classroom teachers combining their efforts to help address issues of importance to classroom instruction in mathematics. In so doing, the contributors provide a general introduction to fundamental ideas in cognitive science, plus an overview of cognitive theory and its direct implications for mathematics education. A practical, no-nonsense attempt to bring recent research within reach for practicing teachers, this book also raises many issues for cognitive researchers to consider.
