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Scientific concepts are abstract human constructions, invented to make sense of complex natural phenomena. Scientists use specialised languages, diagrams, and mathematical representations of various kinds to convey these abstract constructions. This book uses the perspectives of embodied cognition and conceptual metaphor to explore how learners make sense of these concepts. That is, it is assumed that human cognition – including scientific cognition – is grounded in the body and in the material and social contexts in which it is embedded. Understanding abstract concepts is therefore grounded, via metaphor, in knowledge derived from sensory and motor experiences arising from interaction with the physical world. The volume consists of nine chapters that examine a number of intertwined themes: how systematic metaphorical mappings are implicit in scientific language, diagrams, mathematical representations, and the gestures used by scientists; how scientific modelling relies fundamentally on metaphor and can be seen as a form of narrative cognition; how implicit metaphors can be the sources of learner misconceptions; how conceptual change and the acquisition of scientific expertise involve learning to coordinate the use of multiple implicit metaphors; and how effective instruction can build on recognising the embodied nature of scientific cognition and the role of metaphor in scientific thought and learning. The volume also includes three extended commentaries from leading researchers in the fields of cognitive linguistics, the learning sciences, and science education, in which they reflect on theoretical, methodological and pedagogical issues raised in the book. This book was originally published as a special issue of the International Journal of Science Education.
This collection of papers presents some recent trends in metaphor studies that propose new directions of research on the embodied cognition perspective. The overall volume, in particular, shows how the embodied cognition still remains a relevant approach in a multidisciplinary research on the communicative side of metaphors, by focusing on both comprehension processes in science as well as learning processes in education.
This book brings together leading metaphor researchers from a number of disciplines to unite the field of metaphor theory.
The last decades of the twentieth century have witnessed a fundamental scientific discovery: the identification of mirror neurons and, consequently, the development of the Embodied Simulation theory. Neuroscientific data on the mechanism of Embodied Simulation and its role in conceptual and linguistic processing, figurative language included, have stimulated a great deal of research on the embodied nature of conceptual metaphors. However, the very definition of the notions of body and embodiment are today still controversial in the Embodied Cognition debate. This book addresses the issue of the specific contribution of the body to conceptual and linguistic processing and provides a new definition for the mechanism of Embodied Simulation. In this light, and in consideration of a revision of the contemporary theory of metaphor recently introduced by Gerard Steen, who distinguished between deliberate and non-deliberate metaphor processing, the book also proposes a new model of metaphor processing that brings together the mechanism of Embodied Simulation, on the one hand, and the notion of deliberateness on the other. Modulation of attention during linguistic processing is a key component in explaining how they interact. Potential readers of the book include linguists, psychologists, philosophers and any other cognitive scientists and communication scientists piqued by the topic of metaphor and embodiment.
This 2006 book explores how people's subjective, felt experiences of their bodies in action provide part of the fundamental grounding for human cognition and language. Cognition is what occurs when the body engages the physical and cultural world and must be studied in terms of the dynamical interactions between people and the environment. Human language and thought emerge from recurring patterns of embodied activity that constrain ongoing intelligent behavior. We must not assume cognition to be purely internal, symbolic, computational, and disembodied, but seek out the gross and detailed ways that language and thought are inextricably shaped by embodied action. Embodiment and Cognitive Science describes the abundance of empirical evidence from many disciplines, including work on perception, concepts, imagery and reasoning, language and communication, cognitive development, and emotions and consciousness, that support the idea that the mind is embodied.
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.
A study of the cognitive science of mathematical ideas.
The Handbook of Cognitive Science provides an overview of recent developments in cognition research, relying upon non-classical approaches. Cognition is explained as the continuous interplay between brain, body, and environment, without relying on classical notions of computations and representation to explain cognition. The handbook serves as a valuable companion for readers interested in foundational aspects of cognitive science, and neuroscience and the philosophy of mind. The handbook begins with an introduction to embodied cognitive science, and then breaks up the chapters into separate sections on conceptual issues, formal approaches, embodiment in perception and action, embodiment from an artificial perspective, embodied meaning, and emotion and consciousness. Contributors to the book represent research overviews from around the globe including the US, UK, Spain, Germany, Switzerland, France, Sweden, and the Netherlands.
The Handbook of Cognitive Science provides an overview of recent developments in cognition research, relying upon non-classical approaches. Cognition is explained as the continuous interplay between brain, body, and environment, without relying on classical notions of computations and representation to explain cognition. The handbook serves as a valuable companion for readers interested in foundational aspects of cognitive science, and neuroscience and the philosophy of mind. The handbook begins with an introduction to embodied cognitive science, and then breaks up the chapters into separate sections on conceptual issues, formal approaches, embodiment in perception and action, embodiment from an artificial perspective, embodied meaning, and emotion and consciousness. Contributors to the book represent research overviews from around the globe including the US, UK, Spain, Germany, Switzerland, France, Sweden, and the Netherlands.
Taking a cognitive approach to musical meaning, Arnie Cox explores embodied experiences of hearing music as those that move us both consciously and unconsciously. In this pioneering study that draws on neuroscience and music theory, phenomenology and cognitive science, Cox advances his theory of the "mimetic hypothesis," the notion that a large part of our experience and understanding of music involves an embodied imitation in the listener of bodily motions and exertions that are involved in producing music. Through an often unconscious imitation of action and sound, we feel the music as it moves and grows. With applications to tonal and post-tonal Western classical music, to Western vernacular music, and to non-Western music, Cox's work stands to expand the range of phenomena that can be explained by the role of sensory, motor, and affective aspects of human experience and cognition.