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This book addresses a longstanding impasse in problem solving research: if structured mental representations of problems are required for solving them, how do those arise and, if needed, change? The book argues that established theories underestimate this question due to methodological requirements. Proposing to momentarily suspend these requirements, including the focus on well-defined puzzle tasks, the book suggests to alternatively conduct exploratory studies with more complex, open-ended problems. It presents a qualitative case study of participants working for several days on a mental paper folding task designed to challenge them to construct their own representations. Charting their use of gestures, metaphors, and ever more complex descriptions, it carefully traces the chronology of their thinking. Combining in-depth empirical investigation with theory-building, the book proposes a framework of problem solving that goes beyond established models, accommodating associative, motivational, and affective factors. This book will be of great interest to researchers, academics, and postgraduate students in the fields of cognitive science, psychology, philosophy of mind and cognition, and cognitive artificial intelligence.
"This book addresses a longstanding impasse in problem solving research: if structured mental representations of problems are required for solving them, how do those arise and, if needed, change? The book argues that established theories underestimate this question due to methodological requirements. Proposing to momentarily suspend these requirements, including the focus on well-defined puzzle tasks, the book suggests to alternatively conduct exploratory studies with more complex, open-ended problems. It presents a qualitative case study of participants working for several days on a mental paper folding task designed to challenge them to construct their own representations. Charting their use of gestures, metaphors, and ever more complex descriptions, it carefully traces the chronology of their thinking. Combining in-depth empirical investigation with theory-building, the book proposes a framework of problem solving that goes beyond established models, accommodating associative, motivational, and affective factors. This book will be of great interest to researchers, academics, and postgraduate students in the fields of cognitive science, psychology, philosophy of mind and cognition, and cognitive artificial intelligence"--
This volume presents the most current perspectives on the role of metacognition in diverse educationally relevant domains. The purpose is to examine the ways in which theoretical investigations of metacognition have recently produced a strong focus on educational practice. The book is organized around four general themes relevant to education: metacognition and problem solving, metacognition and verbal comprehension, metacognition and the education of nontraditional populations, and metacognition and studentship. Chapter authors review current literature as it applies to their chapter topic; discuss theoretical implications and suggestions for future research; and provide educational applications. Each chapter describes testable theory and provides examples of how theory can be applied to the classroom. The volume will have wide appeal to researchers and students concerned with the scientific investigation of metacognition, and to practitioners concerned with the cultivation of learning and achievement in their students. The unique contribution of this book to the literature on metacognition is its presentation of the most current research examining specific theoretical aspects of metacognition in domains directly relevant to education. This is especially valuable for the many researchers and practitioners who subscribe to the concept that by fostering metacognitive processes during instruction, more durable and transferable learning can be achieved.
The Oxford Handbook of Thinking and Reasoning brings together the contributions of many of the leading researchers in thinking and reasoning to create the most comprehensive overview of research on thinking and reasoning that has ever been available.
Creativity matters. We want people to be more creative and admire those who are. Yet creativity is deeply puzzling. Just what is it to be creative? Why is it valuable? Who or what can be creative and how? Creativity and Philosophy is an outstanding collection of specially commissioned chapters by leading philosophers who explore these problems and many more. It provides a comprehensive and creative picture of creativity, including the following themes: creativity as a virtue, imagination, epistemic virtue, moral virtue and personal vice; creativity with and without value, the definition of creativity, creative failures and suffering; creativity in nature, divine creativity and human agency; naturalistic explanations of creativity and the extended mind; creativity in philosophy, mathematics and logic, and the role of heuristics; creativity in art, morality and politics; individual and group creativity. A major feature of the collection is that it explores creativity not only from the perspective of art and aesthetics, but also from a variety of philosophical disciplines, including epistemology, philosophy of mind, philosophical psychology, philosophy of science, political philosophy and ethics. The volume is essential reading for anyone fascinated by creativity, whether their interests lie in philosophy, music, art and visual studies, literature, psychology, neuroscience, management or education, or they are simply intent on learning more about this vital human trait.
Embodied cognition is one of the foremost areas of study and research in philosophy of mind, philosophy of psychology and cognitive science. The Routledge Handbook of Embodied Cognition is an outstanding guide and reference source to the key topics and debates in this exciting subject and essential reading for any student and scholar of philosophy of mind and cognitive science. Comprising over thirty chapters by a team of international contributors, the Handbook is divided into six parts: Historical underpinnings Perspectives on embodied cognition Applied embodied cognition: perception, language, and reasoning Applied embodied cognition: social and moral cognition and emotion Applied embodied cognition: memory, attention, and group cognition Meta-topics. The early chapters of the Handbook cover empirical and philosophical foundations of embodied cognition, focusing on Gibsonian and phenomenological approaches. Subsequent chapters cover additional, important themes common to work in embodied cognition, including embedded, extended and enactive cognition as well as chapters on empirical research in perception, language, reasoning, social and moral cognition, emotion, consciousness, memory, and learning and development.
Building on the foundation set in Volume I—a landmark synthesis of research in the field—Volume II is a comprehensive, state-of-the-art new volume highlighting new and emerging research perspectives. The contributors, all experts in their research areas, represent the international and gender diversity in the science education research community. The volume is organized around six themes: theory and methods of science education research; science learning; culture, gender, and society and science learning; science teaching; curriculum and assessment in science; science teacher education. Each chapter presents an integrative review of the research on the topic it addresses—pulling together the existing research, working to understand the historical trends and patterns in that body of scholarship, describing how the issue is conceptualized within the literature, how methods and theories have shaped the outcomes of the research, and where the strengths, weaknesses, and gaps are in the literature. Providing guidance to science education faculty and graduate students and leading to new insights and directions for future research, the Handbook of Research on Science Education, Volume II is an essential resource for the entire science education community.
This state-of-the art research Handbook provides a comprehensive, coherent, current synthesis of the empirical and theoretical research concerning teaching and learning in science and lays down a foundation upon which future research can be built. The contributors, all leading experts in their research areas, represent the international and gender diversity that exists in the science education research community. As a whole, the Handbook of Research on Science Education demonstrates that science education is alive and well and illustrates its vitality. It is an essential resource for the entire science education community, including veteran and emerging researchers, university faculty, graduate students, practitioners in the schools, and science education professionals outside of universities. The National Association for Research in Science Teaching (NARST) endorses the Handbook of Research on Science Education as an important and valuable synthesis of the current knowledge in the field of science education by leading individuals in the field. For more information on NARST, please visit: http://www.narst.org/.
Recent work in cognitive science, much of it placed in opposition to a computational view of the mind, has argued that the concept of representation and theories based on that concept are not sufficient to explain the details of cognitive processing. These attacks on representation have focused on the importance of context sensitivity in cognitive processing, on the range of individual differences in performance, and on the relationship between minds and the bodies and environments in which they exist. In each case, models based on traditional assumptions about representation have been assumed to be too rigid to account for the effects of these factors on cognitive processing. In place of a representational view of mind, other formalisms and methodologies, such as nonlinear differential equations (or dynamical systems) and situated robotics, have been proposed as better explanatory tools for understanding cognition. This book is based on the notion that, while new tools and approaches for understanding cognition are valuable, representational approaches do not need to be abandoned in the course of constructing new models and explanations. Rather, models that incorporate representation are quite compatible with the kinds of complex situations being modeled with the new methods. This volume illustrates the power of this explicitly representational approach--labeled "cognitive dynamics"--in original essays by prominent researchers in cognitive science. Each chapter explores some aspect of the dynamics of cognitive processing while still retaining representations as the centerpiece of the explanations of the key phenomena. These chapters serve as an existence proof that representation is not incompatible with the dynamics of cognitive processing. The book is divided into sections on foundational issues about the use of representation in cognitive science, the dynamics of low level cognitive processes (such as visual and auditory perception and simple lexical priming), and the dynamics of higher cognitive processes (including categorization, analogy, and decision making).
Embodied cognition represents one of most important research programs in contemporary cognitive science. Although there is a diversity of opinion concerning the nature of embodiment, the core idea is that cognitive processes are influenced by body morphology, emotions, and sensorimotor systems. This idea is supported by an ever increasing collection of empirical studies that fall into two broad classes: one consisting of experiments that implicate action, emotion, and perception systems in seemingly abstract cognitive tasks and the other consisting of experiments that demonstrate the contribution of bodily interaction with the external environment to the performance of such tasks. Now that the research program of embodied cognition is well established, the time seems right for assessing its further promise and potential limitations. This research topic aims to create an interdisciplinary forum for discussing where we go from here. Given that we have good reason to think that the body influences cognition in surprisingly robust ways, the central question is no longer whether or not any cognitive processes are embodied. Instead, other questions have come to the fore: To what extent are cognitive processes in general embodied? Are there disembodied processes? Among those that are embodied, how are they embodied? Is there more than one kind of embodiment? Is embodiment a matter of degree? There are a number of specific issues that could be addressed by submissions to this research topic. Some supporters of embodied cognition eschew representations. Should anti-representationalism be a core part of an embodied approach? What role should dynamical models play? Research in embodied cognition has tended to focus on the importance of sensorimotor areas for cognition. What are the functions of multimodal or amodal brain areas? Abstract concepts have proved to be a challenge for embodied cognition. How should they be handled? Should researchers allow for some form of weak embodiment? Currently, there is a split between those who offer a simulation-based approach to embodiment and those who offer an enactive approach. Who is right? Should there be a rapprochement between these two groups? Some experimental and robotics researchers have recently shown a great deal of interest in the idea that external resources such as language can serve as form of cognitive scaffolding. What are the implications of this idea for embodied cognition? This research aims to bring together empirical and theoretical work from a diversity of perspectives. Subtitling is one of the most important disciplines in the history of social sciences, with the help of cognitive psychology. Researchers are encouraged to submit papers to discussing the future of embodied cognition, methods, models, or theories.