The Construction of Scientific Knowledge through Metaphor


Book Description

That metaphor is used in science is hardly a contentious issue. Extensive literature on the topic testifies to the widespread employment of metaphor in scientific texts. According to the received view, however, metaphor is a periphrastic 'as-if' device which has no bearing on the deliberative content of scientific theories. Metaphorical reasoning is taken to be epiphenomenal, a corollary to which is that metaphorical meaning is, in principle, reducible to equivalent literal meaning (for discussion, see section 5.2.1). Consequently, metaphors are considered ancillary in science and tend to be ascribed a marginal role as heuristic or exegetical tools to be used for pedagogical purposes. Contrary to this restrictive view on the function of metaphor in science, this study seeks to present the role of metaphor as both more significant and versatile. The aim of the study is to establish the mechanism of conceptual metaphor as operative in the constitution of scientific theories. Implicit in the thesis is the claim that metaphors are not merely linguistic expressions, but they are (primarily) a matter of reasoning. Thus, a prerequisite to an investigation of the role of metaphor in scientific theory articulation is demonstrating that metaphor operates at the level of conceptualisation. Only then can it be legitimately posited as a conceptual instrument of abstract reason. To this end, a framework of cognition is introduced in section IV in which metaphor is characterised naturally as a protective cognitive device whereby the cognitive agent establishes meaningful relationships between concepts and segments of external reality.




The Third Lens


Book Description

Does science aim at providing an account of the world that is literally true or objectively true? Understanding the difference requires paying close attention to metaphor and its role in science. In The Third Lens, Andrew S. Reynolds argues that metaphors, like microscopes and other instruments, are a vital tool in the construction of scientific knowledge and explanations of how the world works. More than just rhetorical devices for conveying difficult ideas, metaphors provide the conceptual means with which scientists interpret and intervene in the world. Reynolds here investigates the role of metaphors in the creation of scientific concepts, theories, and explanations, using cell theory as his primary case study. He explores the history of key metaphors that have informed the field and the experimental, philosophical, and social circumstances under which they have emerged, risen in popularity, and in some cases faded from view. How we think of cells—as chambers, organisms, or even machines—makes a difference to scientific practice. Consequently, an accurate picture of how scientific knowledge is made requires us to understand how the metaphors scientists use—and the social values that often surreptitiously accompany them—influence our understanding of the world, and, ultimately, of ourselves. The influence of metaphor isn’t limited to how we think about cells or proteins: in some cases they can even lead to real material change in the very nature of the thing in question, as scientists use technology to alter the reality to fit the metaphor. Drawing out the implications of science’s reliance upon metaphor, The Third Lens will be of interest to anyone working in the areas of history and philosophy of science, science studies, cell and molecular biology, science education and communication, and metaphor in general.




Metaphor and Analogy in Science Education


Book Description

This book brings together powerful ideas and new developments from internationally recognised scholars and classroom practitioners to provide theoretical and practical knowledge to inform progress in science education. This is achieved through a series of related chapters reporting research on analogy and metaphor in science education. Throughout the book, contributors not only highlight successful applications of analogies and metaphors, but also foreshadow exciting developments for research and practice. Themes include metaphor and analogy: best practice, as reasoning; for learning; applications in teacher development; in science education research; philosophical and theoretical foundations. Accordingly, the book is likely to appeal to a wide audience of science educators –classroom practitioners, student teachers, teacher educators and researchers.




How Metaphors Guide, Teach and Popularize Science


Book Description

Metaphors are essential to scientists themselves and strongly influence science communication. Through careful analyses of metaphors actually used in science texts, recordings, and videos, this book explores the essential functions of conceptual metaphor in the conduct of science, teaching of science, and how scientific ideas are promoted and popularized. With an accessible introduction to theory and method this book prepares scientists, science teachers, and science writers to take advantage of recent shifts in metaphor theories and methods. Metaphor specialists will find theoretical issues explored in studies of bacteriology, cell reproduction, marine biology, physics, brain function and social psychology. We see the degree of conscious or intentional use of metaphor in shaping our conceptual systems and constraining inferences. Metaphor sources include social structure, embodied experience, abstract or mathematical formulations. The results are sometimes innovative hypotheses and robust conclusions; other times pedagogically useful, if inaccurate, stepping stones or, at worst, misleading fictions. As of January 2023, this e-book is freely available, thanks to the support of libraries working with Knowledge Unlatched.




Taking Science to School


Book Description

What is science for a child? How do children learn about science and how to do science? Drawing on a vast array of work from neuroscience to classroom observation, Taking Science to School provides a comprehensive picture of what we know about teaching and learning science from kindergarten through eighth grade. By looking at a broad range of questions, this book provides a basic foundation for guiding science teaching and supporting students in their learning. Taking Science to School answers such questions as: When do children begin to learn about science? Are there critical stages in a child's development of such scientific concepts as mass or animate objects? What role does nonschool learning play in children's knowledge of science? How can science education capitalize on children's natural curiosity? What are the best tasks for books, lectures, and hands-on learning? How can teachers be taught to teach science? The book also provides a detailed examination of how we know what we know about children's learning of scienceâ€"about the role of research and evidence. This book will be an essential resource for everyone involved in K-8 science educationâ€"teachers, principals, boards of education, teacher education providers and accreditors, education researchers, federal education agencies, and state and federal policy makers. It will also be a useful guide for parents and others interested in how children learn.




Metaphor and Analogy in the Sciences


Book Description

This collection of papers contains historical case studies, systematic contributions of a general nature, and applications to specific sciences. The bibliographies of the contributions contain references to all central items from the traditions that are relevant today. While providing access to contemporary views on the issue, the papers illustrate the wide variety of functions of metaphors and analogies, as well as the many connections between the study of some of these functions and other subjects and disciplines.




Metaphor and Analogy in Science Education


Book Description

Years ago a primary teacher told me about a great series of lessons she had just had. The class had visited rock pools on the seashore, and when she asked them about their observations they talked about: it was like a factory, it was like a church, it was like a garden, it was like our kitchen at breakfast time, etc. Each student’s analogy could be elaborated, and these analogies provided her with strongly engaged students and a great platform from which to develop their learning about biological diversity and interdependence. In everyday life we learn so many things by comparing and contrasting. The use of analogies and metaphors is important in science itself and their use in teaching science seems a natural extension, but textbooks with their own sparse logic, do not help teachers or students. David Ausubel in the 1960s had advocated the use of ‘advance organisers’ to introduce the teaching of conceptual material in the sciences, and some of these had an analogical character. However, research on the value of this idea was cumbersome and indecisive, and it ceased after just a few studies. In the 1980s research into children’s conceptions of scientific phenomena and concepts really burgeoned, and it was soon followed by an exploration of a new set of pedagogical strategies that recognised a student in a science class is much more than a tabula rasa.




The Enigma of Metaphor


Book Description




A Cognitive Semantics Approach to Darwin’s Theory of Evolution


Book Description

DARWIN’S THEORY OF EVOLUTION ranks among the most influential of modern scientific theories. Applying the methodology of COGNITIVE SEMANTICS , this study investigates how metaphors based on domains of JOURNEY, STRUGGLE, TREE and HUMAN AGENCY serve to conceptualize key concepts of Darwin’s theory — such as evolutionary change, natural selection, and relationships among organisms. At the outset the author identifies original metaphors in The Origin of Species, to turn to their realizations in modern discourse on evolution in later chapters. Thus, the study uncovers how metaphors contribute to structuring the theory by expressing it in a coherent and attractive way, and how they provide mental tools for reasoning. As the first comprehensive study of conceptual metaphors that underlie Darwin’s theory and affect the way we talk and think about evolution, it may be of interest not only to linguists and evolutionary biologists but also to anyone interested in the interconnection between thought and language.




Re-imagining the Research Process


Book Description

This book offers a unique solution to the shortage of more imaginative and engaging research by re-imagining the core elements of the research process. In contrast to existing methods, which mainly focus on standard ingredients in the research process, the metaphorical approach taken here offers a more varied and comprehensive platform for producing novel, influential and relevant research. The set of guiding principles suggested in the book provides researchers with the resources to break away from existing conventions and templates for conducting and writing research. Re-imagining the Research Process: Conventional and Alternative Metaphors is suitable for upper-undergraduate and postgraduate students and researchers interested in challenging traditional views of the research process. Mats Alvesson holds a chair in the Business Administration department at Lund University in Sweden and is also a part-time professor at University of Queensland Business School, Australia and at Cass Business School, UK. Jorgen Sandberg is Professor at UQ Business School, University of Queensland, Australia, and Distinguished Research Environment Professor in Organization Studies at the Warwick Business School, UK.