This book represents an attempt to understand the evolution of Jean Piaget's basic ideas in the context of his own intellectual development. Piaget sought to elucidate human knowledge by studying its origins and development. In this book, Michael Chapman applies the same method to Piaget's own thinking. Dr Chapman shows that some of the Swiss psychologist's essential ideas originated in adolescent philosophical speculations about the relation between science and value. These same ideas were then developed step by step in Piaget's investigations of children's cognitive development. Dr Chapman claims that Piaget's use of developmental psychology as a means for addressing questions about the evolution of knowledge has been misunderstood by psychologists approaching his work exclusively from the perspectives of their own discipline. Reconstructing Piaget's intellectual biography makes possible a better understanding of the questions he originally posed and the answers he subsequently provided. Dr Chapman concludes with an assessment of Piaget's relevance for contemporary psychology and philosophy and suggests ways in which Piagetian theory might be further developed.
Knowledge under Construction investigates how young children develop spatial, geometric, and scientific thinking skills-particularly those associated with architecture. Based on original research and analysis of videotapes of children's play with blocks, the authors' findings suggest that such play is anything but pointless. Their conclusions fill in gaps in our current understanding of how children learn to think spatially and scientifically even while challenging portions of that understanding, including some of Piaget's thesis about the primacy of topological space in children's learning. A system of measurement developed to identify and categorize children's spontaneous behavior at play allows adults to observe patterns of behavior as children play and record the development of process skills and cognitive abilities, enhancing our understanding of how children begin to learn about space and architectural relationships. The book also examines the educational implications of our enhanced understanding. One possible development is a new, alternative way to measure cognitive abilities and development in children based on their work with blocks.
This definitive volume is the result of collaboration by top scholars in the field of children's cognition. New edition offers an up-to-date overview of all the major areas of importance in the field, and includes new data from cognitive neuroscience and new chapters on social cognitive development and language Provides state-of-the-art summaries of current research by international specialists in different areas of cognitive development Spans aspects of cognitive development from infancy to the onset of adolescence Includes chapters on symbolic reasoning, pretend play, spatial development, abnormal cognitive development and current theoretical perspectives
This unusual volume presents an overview of Jean Piaget's work in psychology--from his earliest writings to posthumous publications. It also contains a glossary of the essential explanatory concepts found in this work. The focus is on Piaget's psychological studies and on the underlying epistemological theses. The book may be consulted in various ways depending on whether one is looking for an introduction to Piaget's theory, details about a particular concept, a survey of his body of work, or a historical perspective. Readers who are relatively unfamiliar with Piaget's ideas and seek access to them through this book will not necessarily proceed in the same way as those who are acquainted with Piaget's work and wish to refresh, synthesize, or complete their knowledge. The volume is divided into two major sections with several subdivisions as follows: * The Chronological Overview presents Piaget's early ideas and the most important sources of his inspiration, and reviews his research work dividing it into four main periods plus a transitional one. * The Glossary covers a number of explanatory concepts which are essential to Piaget's theory.
This work represents the first integrated account of how deixis operates to facilitate points of view, providing the raw material for reconciling index and object. The book offers a fresh, applied philosophical approach using original empirical evidence to show that deictic demonstratives hasten the recognition of core representational constructs. It presents a case where the comprehension of shifting points of view by means of deixis is paramount to a theory of mind and to a worldview that incorporates human components of discovering and extending spatial knowledge. The book supports Peirce’s triadic sign theory as a more adequate explanatory account compared with those of Bühler and Piaget. Peirce’s unitary approach underscores the artificiality of constructing a worldview driven by logical reasoning alone; it highlights the importance of self-regulation and the appreciation of otherness within a sociocultural milieu. Integral to this semiotic perspective is imagination as a primary tool for situating the self in constructed realities, thus infusing reality with new possibilities. Imagination is likewise necessary to establish postures of mind for the self and others. Within these imaginative scenarios (consisting of overt, and then covert self dialogue) children construct their own worldviews, through linguistic role-taking, as they legitimize conflicting viewpoints within imagined spatial frameworks.
The book synergizes research on number across two disciplines—mathematics education and psychology. The underlying problem the book addresses is how the brain constructs number. The opening chapter frames the problem in terms of children’s activity, including mental and physical actions. Subsequent chapters are organized into sections that address specific domains of number: natural numbers, fractions, and integers. Chapters within each section address ways that children build upon biological primitives (e.g., subitizing) and prior constructs (e.g., counting sequences) to construct number. The book relies on co-authored chapters and commentaries at the end of each section to create dialogue between junior faculty and senior researchers, as well as between psychologists and mathematics educators. The final chapter brings this work together around the framework of children’s activity and additional themes that arise in the collective work. The book is aimed to appeal to mathematics educators, mathematics teacher educators, mathematics education researchers, educational psychologists, cognitive psychologists, and developmental psychologists.