This book provides state-of-the-art contemporary research insights into key applications and processes in open world learning. Open world learning seeks to understand access to education, structures, and the presence of dialogue and support systems. It explores how the application of open world and educational technologies can be used to create opportunities for open and high-quality education. Presenting ground-breaking research from an award winning Leverhulme doctoral training programme, the book provides several integrated and cohesive perspectives of the affordances and limitations of open world learning. The chapters feature a wide range of open world learning topics, ranging from theoretical and methodological discussions to empirical demonstrations of how open world learning can be effectively implemented, evaluated, and used to inform theory and practice. The book brings together a range of innovative uses of technology and practice in open world learning from 387,134 learners and educators learning and working in 136 unique learning contexts across the globe and considers the enablers and disablers of openness in learning, ethical and privacy implications, and how open world learning can be used to foster inclusive approaches to learning across educational sectors, disciplines and countries. The book is unique in exploring the complex, contradictory and multi-disciplinary nature of open world learning at an international level and will be of great interest to academics, researchers, professionals, and policy makers in the field of education technology, e-learning and digital education. The Open Access version of this book, available at www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.

Developments in information technology are bringing about changes in science education. This Reader focuses on the theoretical and practical consideration of using information and communications technologies in teaching and learning. It examines current approaches to teaching and learning in science at various levels of education, and ways in which science in made more accessible. This will include the future potential of such current developments as access to practical work delivered on the web. The Reader is divided into three sections: What are the current issues in using ICT to teach and learn in science? Designing and evaluating ICT to teach and learn science Extending access to science learning This is a companion book to Reconsidering Science Education, also published by RoutledgeFalmer. Mediating Science Learning Through ICT is a valuable resource for teachers on Masters courses in science education and academics in science education.

This informative book looks at science learning in a wide range of contexts. It is divided into three parts. Part one deals with the arguments put forward for studying science, and includes a discussion on what science learners need to know about the nature of science and how decisions about what forms science curricula are made. Part two includes articles on the processes by which science is learned and part three deals with inclusivity and diversity in science learning and what widening participation means for science education.
This is a companion book to Mediating Science Learning through ICT also published by RoutledgeFalmer.
Reconsidering Science Learning will be of particular interest to teachers on masters courses in science education and academics with an interest in science education.

This book provides state-of-the-art contemporary research insights into key applications and processes in open world learning. Open world learning seeks to understand access to education, structures, and the presence of dialogue and support systems. It explores how the application of open world and educational technologies can be used to create opportunities for open and high-quality education. Presenting ground-breaking research from an award winning Leverhulme doctoral training programme, the book provides several integrated and cohesive perspectives of the affordances and limitations of open world learning. The chapters feature a wide range of open world learning topics, ranging from theoretical and methodological discussions to empirical demonstrations of how open world learning can be effectively implemented, evaluated, and used to inform theory and practice. The book brings together a range of innovative uses of technology and practice in open world learning from 387,134 learners and educators learning and working in 136 unique learning contexts across the globe and considers the enablers and disablers of openness in learning, ethical and privacy implications, and how open world learning can be used to foster inclusive approaches to learning across educational sectors, disciplines and countries. The book is unique in exploring the complex, contradictory and multi-disciplinary nature of open world learning at an international level and will be of great interest to academics, researchers, professionals, and policy makers in the field of education technology, e-learning and digital education. The Open Access version of this book, available at www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.

There is currently a rapidly growing interest in inquiry learning and an emerging consensus among researchers that, particularly when supported by technology, it can be a significant vehicle for developing higher order thinking skills. Inquiry learning methods also offer learners meaningful and productive approaches to the development of their knowledge of the world, yet such methods can present significant challenges for teachers and students. Orchestrating Inquiry Learning addresses the key challenge of how to resource and support processes of inquiry learning within and beyond the classroom. It argues that technological support, when coupled with appropriate design of activities and management of the learning environment, can enable inquiry learning experiences that are engaging, authentic and personally relevant.This edited collection of carefully integrated chapters brings together, for the first time; work on inquiry learning and orchestration of learning. Drawing upon a broad range of theoretical perspectives, this book examines: Orchestration of inquiry learning and instruction Trajectories of inquiry learning Designing for inquiry learning Scripting personal inquiry Collaborative and collective inquiry learning Assessment of inquiry learning Inquiry learning in formal and semi-formal educational contexts Orchestrating Inquiry Learning is essential reading for all those concerned with understanding and promoting effective inquiry learning. The book is aimed at an international audience of researchers, post-graduate students, and advanced undergraduates in education, educational technology and psychology. It will also be of interest to educational practitioners and policy makers, including teachers, educational advisors, teacher-students and their trainers.

There is currently a rapidly growing interest in inquiry learning and an emerging consensus among researchers that, particularly when supported by technology, it can be a significant vehicle for developing higher order thinking skills. Inquiry learning methods also offer learners meaningful and productive approaches to the development of their knowledge of the world, yet such methods can present significant challenges for teachers and students. Orchestrating Inquiry Learning addresses the key challenge of how to resource and support processes of inquiry learning within and beyond the classroom. It argues that technological support, when coupled with appropriate design of activities and management of the learning environment, can enable inquiry learning experiences that are engaging, authentic and personally relevant.This edited collection of carefully integrated chapters brings together, for the first time; work on inquiry learning and orchestration of learning. Drawing upon a broad range of theoretical perspectives, this book examines: Orchestration of inquiry learning and instruction Trajectories of inquiry learning Designing for inquiry learning Scripting personal inquiry Collaborative and collective inquiry learning Assessment of inquiry learning Inquiry learning in formal and semi-formal educational contexts Orchestrating Inquiry Learning is essential reading for all those concerned with understanding and promoting effective inquiry learning. The book is aimed at an international audience of researchers, post-graduate students, and advanced undergraduates in education, educational technology and psychology. It will also be of interest to educational practitioners and policy makers, including teachers, educational advisors, teacher-students and their trainers.

Developments in information technology are bringing about changes in science education. This Reader focuses on the theoretical and practical consideration of using information and communications technologies in teaching and learning. It examines current approaches to teaching and learning in science at various levels of education, and ways in which science in made more accessible. This will include the future potential of such current developments as access to practical work delivered on the web. The Reader is divided into three sections: What are the current issues in using ICT to teach and learn in science? Designing and evaluating ICT to teach and learn science Extending access to science learning This is a companion book to Reconsidering Science Education, also published by RoutledgeFalmer. Mediating Science Learning Through ICT is a valuable resource for teachers on Masters courses in science education and academics in science education.

"Communicating Science" will be an invaluable source-book for those eager to learn about or enter the professional world of science.

Communication Science: Contexts and Channels is a collection of articles that addresses the communication between scientists and the public. The book is an ideal introduction for those studying science and communication courses.

"Communicating Science" will be an invaluable source-book for those eager to learn about or enter the professional world of science.

Citizen Inquiry: Synthesising Science and Inquiry Learning is the first book of its kind to bring together the concepts of citizen science and inquiry-based learning to illustrate the pedagogical advantages of this approach. It shifts the emphasis of scientific investigations from scientists to the general public, by educating learners of all ages to determine their own research agenda and devise their own investigations underpinned by a model of scientific inquiry. 'Citizen inquiry' is an original approach to research education that refers to mass participation of the public in joining inquiry-led scientific investigations. Using a range of practical case studies underpinned by the theory of inquiry-based learning, this book has significant implications for teaching and learning through exploration of how new technologies can be used to engage with scientific research. Key features include: a new perspective on science education and science practice through crowd-sourced research explanation of the benefits of this innovative approach to teaching and learning a steady shift of emphasis from theory to application for readers to understand thoroughly the current state of research in the field and its applications to practice examples of practical applications of this approach and recommendations on how successful citizen inquiry applications can be developed. This edited volume is essential reading for academic researchers and professional educators interested in the potential of online technology in all levels of education, from primary and secondary level through to further education and lifelong learning. It will be ideal reading on any undergraduate or postgraduate course involving research methods in education as well as developments in science education and educational software.

This informative book looks at science learning in a wide range of contexts. It is divided into three parts. Part one deals with the arguments put forward for studying science, and includes a discussion on what science learners need to know about the nature of science and how decisions about what forms science curricula are made. Part two includes articles on the processes by which science is learned and part three deals with inclusivity and diversity in science learning and what widening participation means for science education.
This is a companion book to Mediating Science Learning through ICT also published by RoutledgeFalmer.
Reconsidering Science Learning will be of particular interest to teachers on masters courses in science education and academics with an interest in science education.

This book is based on the workshop that kickstarted the NATO Science Committee Special Programme on Advanced Educational Technology. We invited the leaders in the field to attend this inaugural meeting and were delighted by the quality of the attendance, the papers delivered at the workshop and this book. Many of the authors have subsequently run other meetings funded by the Special Programme and have, or are in the process of, editing books which focus on particular topics. This book covers all the major themes in the area ranging from fundamental theoretical work to empirical studies of state of the art technological innovations. Tim O'Shea chaired the NATO Survey Group which planned the Programme and the subsequent Panel which disbursed funds in the first two years of the Programme. He would like to thank the other group and panel members, namely, Professor N Balacheff, Professor D Bjomer, Professor H Bouma, Professor P C Duchastel, Professor A Dias de Figueiredo, Dr D Jonassen and Professor T Liao. He would like to offer his special thanks to Dr L V da Cunha the NATO Programme Director for his unfailing support and patience. Eileen Scanlon was the Director of the Workshop which is the basis of this book. She offers heartfelt thanks to the contributors and to the following who provided practical help with the meeting or the production of this book: Mrs Pauline Adams, Dr Mike Baker, Mrs Kathy Evans, Mrs Patricia Roe, Mr Dave Perry and Ms Fiona Spensley.

Citizen Inquiry: Synthesising Science and Inquiry Learning is the first book of its kind to bring together the concepts of citizen science and inquiry-based learning to illustrate the pedagogical advantages of this approach. It shifts the emphasis of scientific investigations from scientists to the general public, by educating learners of all ages to determine their own research agenda and devise their own investigations underpinned by a model of scientific inquiry. 'Citizen inquiry' is an original approach to research education that refers to mass participation of the public in joining inquiry-led scientific investigations. Using a range of practical case studies underpinned by the theory of inquiry-based learning, this book has significant implications for teaching and learning through exploration of how new technologies can be used to engage with scientific research. Key features include: a new perspective on science education and science practice through crowd-sourced research explanation of the benefits of this innovative approach to teaching and learning a steady shift of emphasis from theory to application for readers to understand thoroughly the current state of research in the field and its applications to practice examples of practical applications of this approach and recommendations on how successful citizen inquiry applications can be developed. This edited volume is essential reading for academic researchers and professional educators interested in the potential of online technology in all levels of education, from primary and secondary level through to further education and lifelong learning. It will be ideal reading on any undergraduate or postgraduate course involving research methods in education as well as developments in science education and educational software.

What is the impact of open access on science communication? How can scientists effectively engage and interact with the public? What role can science communication have when scientific controversies arise?
Practising science communication in the information age is a collection of newly-commissioned chapters by leading scholars and practitioners of science communication. It considers how scientists communicate with each other as part of their professional practice, critically evaluating how this forms the basis of the documenting of scientific knowledge, and investigating how open access publication and open review are influencing current practices. It also explores how science communication can play a crucial role when science is disputed, investigating the role of expertise in the formation of scientific controversy and consensus.
The volume provides a theoretically informed review of contemporary trends and issues that are engaging practitioners of science communication, focusing on issues such as the norms and conventions governing the practices of science communication, and how scientists communicate between disciplines. Other topics that receive critical treatment include: peer review, open access publication, the protection of intellectual property, the formation of scientific controversy and consensus, the popularization of science, and the practices of public engagement.
A companion volume, Investigating science communication in the information age, provides an ideal introduction to anyone wishing to study contemporary science communication. topics as diverse as peer review, open access pulication, the protection of intellectual property, the popularization ofscience and the practices of public engagement.