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This book provides a range of insights into pupils' learning relevant to the use of information and communications technology (ICT) in primary science. The contributors, who are all experts in their field, draw on practical and theoretical perspectives and: Provide specific examples of software and hardware use in the classroom Consider innovative and creative uses of technology for pupils engaged in science activity in the primary and early years Indicate future possibilities for the use of computer-based technologies Key themes running through the book include: setting the use of ICT in primary science within theoretical perspectives on learning and on pedagogy; the importance of using ICT in developing talking and listening opportunities in the science classroom; and the potential of learning through ICT enhanced science investigations. Contemporary issues such as inclusion, creativity and collaborative learning are also examined, making Teaching and Learning Primary Science with ICT essential reading for students in science education, and for teachers who want to use new technology to improve learning in their science classrooms.
Science Education: A Global Perspective is ‘global’ both in content and authorship. Its 17 chapters by an assemblage of seasoned and knowledgeable science educators from many parts of the world seek to bring to the fore current developments in science education and their implications. The book thus covers a wide range of topics in science education from various national and international perspectives. These include the nature of science, science and religion, evolution, curriculum and pedagogy, context-based teaching and learning, science and national development, socially-responsible science education, equitable access for women and girls in science and technology education, and the benefits of science education research. It ends on an optimistic note by looking at science education in 50 years’ time with a recommendation, among others, for stakeholders to take the responsibility of preparing children towards a blossoming science education sector in an anticipated future world. This book is suitable for use by discerning researchers, teachers, undergraduate and postgraduate students in science education, and policy makers at all levels of education. Other educationalists and personnel in science and technology vocations will also find it interesting and useful as the reader-motivated approach has guided the presentation of ideas. Science Education: A Global Perspective is a rich compendium of the components of science education in context, practice, and delivery. Dr Bulent Cavas, Professor of Science Education, Dokuz Eylul Univerity, Buca-Izmir, Turkey/President-Elect, International Council of Associations for Science Education (ICASE) This book will be of immense relevance for current and future global strides in training and research in science education. Surinder K. Ghai, Chairman, Sterling Publishers Pvt. Ltd., New Delhi, India This book provides a refreshing insight into the current status and future direction of science education. It will be very useful to researchers, those pursuing undergraduate and post-graduate courses in science education, and all other personnel involved in the policy and practice of science education. Dr. Bennoit Sossou, Director/Country Representative, UNESCO Regional Office in Abuja, Nigeria
The development of technologies, education, and economy play an important role in modern society. Digital literacy is important for personal development and for the economic growth of society. Technological learning provides students with specific knowledge and capabilities for using new technologies in their everyday lives and in their careers. Examining the Roles of Teachers and Students in Mastering New Technologies is a critical scholarly resource that examines computer literacy knowledge levels in students and the perception of computer use in the classroom from various teacher perspectives. Featuring a wide range of topics such as higher education, special education, and blended learning, this book is ideal for teachers, instructional designers, curriculum developers, academicians, policymakers, administrators, researchers, and students.
How Science Works provides student and practising teachers with a comprehensive introduction to one of the most dramatic changes to the secondary science curriculum. Underpinned by the latest research in the field, it explores the emergence and meaning of How Science Works and reviews major developments in pedagogy and practice. With chapters structured around three key themes - why How Science Works, what it is and how to teach it – expert contributors explore issues including the need for curriculum change, arguments for scientific literacy for all, school students’ views about science, what we understand about scientific methods, types of scientific enquiry, and, importantly, effective pedagogies and their implications for practice. Aiming to promote discussion and reflection on the ways forward for this new and emerging area of the school science curriculum, it considers: teaching controversial issues in science argumentation and questioning for effective teaching enhancing investigative science and developing reasoned scientific judgments the role of ICT in exploring How Science Works teaching science outside the classroom. How Science Works is a source of guidance for all student, new and experienced teachers of secondary science, interested in investigating how the curriculum can provide creativity and engagement for all school students.
Now fully updated in its third edition, Science Learning, Science Teaching offers an accessible, practical guide to creative classroom teaching and a comprehensive introduction to contemporary issues in science education. Aiming to encourage and assist professionals with the process of reflection in the science classroom, the new edition examines the latest research in the field, changes to curriculum and the latest standards for initial teacher training. Including two brand new chapters, key topics covered include: the science curriculum and science in the curriculum planning and managing learning learning in science – including consideration of current ‘fads’ in learning safety in the science laboratory exploring how science works using ICT in the science classroom teaching in an inclusive classroom the role of practical work and investigations in science language and literacy in science citizenship and sustainability in science education. Including useful references, further reading lists and recommended websites, Science Learning, Science Teaching is an essential source of support, guidance and inspiration all students, teachers, mentors and those involved in science education wishing to reflect upon, improve and enrich their practice.
An essential text for researchers and academics seeking the most comprehensive and up-to-date coverage of all aspects of e-learning and ICT in education, this book is a multidisciplinary forum covering technical, pedagogical, organizational, instructional and policy aspects of the topic. Representing the best peer-reviewed papers from the 8th Panhellenic Conference on ICT in Education, special emphasis is given to applied research relevant to educational practice and guided by the educational realities in schools, colleges, universities and informal learning organizations. The volume encompasses the current trends and issues which determine and inform the integration of ICT in educational practice, including educational software, educational games, collaborative learning, virtual learning environments, social networks, learning analytics, digital museums, as well as the evolution of e-learning.
The purpose of this book is to establish a broader context for rethinking science learning and teaching by using cultural historical activity theoretic approach. Activity theory already steps in its third generation and only a few works have been done on its applications to science education, especially in Europe. The context takes into account more recent developments in activity theory applications in US, Canada, Australia and Europe. The chapters articulate new ways of thinking about learning and teaching science i.e., new theoretical perspectives and some case studies of teaching important scientific topics in/for compulsory education. The ultimate purpose of each chapter and the collective book as a whole is to prepare the ground upon which a new pedagogy in science education can be emerged to provide more encompassing theoretical frameworks that allow us to capture the complexity of science learning and teaching as it occurs in and out-of schools. The book captures the dialogic and interactive nature of the transferring the activity theory to both formal and informal science education. It also contributes to the development of innovative curricula, school science textbooks, educational programs and ICT’s materials. As a whole, the book moves theorizing and practicing of science education into new face and uncharted terrain. It is recommended to new scholars and researchers as well as teachers/researchers.
Reflective practice is at the heart of effective teaching, and this book helps you develop into a reflective teacher of Science. Everything you need is here: guidance on developing your analysis and self-evaluation skills, the knowledge of what you are trying to achieve and why, and examples of how experienced teachers deliver successful lessons. It includes advice about obtaining your first teaching post, and about continuing professional development. The book shows you how to plan creative lessons, how to make good use of resources and how to assess pupils′ progress effectively. Each chapter contains points for reflection, which encourage you to break off from your reading and think about the challenging questions that you face as a new teacher. The book comes with access to a companion website, www.sagepub.co.uk/secondary, where you will find: - Videos of real lessons so you can see the skills discussed in the text in action - Links to a range of sites that provide useful additional support - Extra planning and resource materials. If you are training to teach science this book will help you to improve your classroom performance, by providing you with practical advice, but also by helping you to think in depth about the key issues. It also supplements guidance on undertaking a research project with examples of the research evidence that is needed in academic work at Masters level, essential for anyone undertaking an M-level PGCE.
This practical and accessible workbook is designed to support student teachers as they develop their basic teaching skills and increase their broader knowledge and understanding for teaching science. Newly qualified and beginning teachers should also find it useful. It contains all the advice, guidance and resources new and student science teachers need to reflect on and develop their teaching practice, helping them to plan lessons across the subject in a variety of teaching situations. Helpful features include: case studies examples of pupils’ work examples of existing good practice a range of tried-and-tested teaching strategies photocopiable resources and training materials activities in each chapter to help student history teachers analyse their learning and performance web links for further reading on evidence-based practice.