This well-written and thought-provoking book presents the state-of-the-art in science education for kindergarten and primary schools. It begins with a thorough theoretical discussion on why it is incumbent on the science educator to teach science at first stages of childhood. It goes on to analyze and synthesize a broad range of educational approaches and themes. The book also presents novel strategies to science teaching.
This fully updated third edition of Teaching and Learning with Technologies in the Primary School introduces practising and student teachers to the range of ways in which technology can be used to support and extend teaching and learning opportunities in their classrooms. Newly expanded to include 50% brand new chapters reflecting the abundant changes in the field since the last edition was published, it offers practical guidance underpinned by the latest research and teaching in the field. The authors draw on the extensive experience of educators in Australia, England, Ireland, Scotland, South Africa, the U.S.A. and Wales to provide local, national and international examples of the application of digital technologies to teaching and learning across the primary curriculum. Illustrated throughout with case studies and examples together with a glossary explaining key terms, chapters focus on how technology-based practices can support the teaching of individual subjects, as well as a range of teaching and learning styles. Key and new topics covered include: - Supporting reading and writing with technology - Technology in the early years - Developing e-skills of parents - Use of Virtual Reality in learning - PedTech - Resilience in the digital world Written for all training primary teachers, as well as more experienced teachers and technology co-ordinators looking for guidance on the latest innovative practice, Teaching and Learning with Technologies in the Primary School, 3rd edition, offers advice and ideas for creative, engaging and successful teaching and learning.
The new edition of Teaching and Learning with ICT in the Primary School introduces practising and student teachers to the range of ways in which ICT can be used to support and extend teaching and learning opportunities in their classrooms. Fully updated and expanded with brand new chapters reflecting the abundant changes in the field since the first edition was published, it offers practical guidance underpinned by the latest research and teaching in the field. It is illustrated throughout with case studies and examples together with a glossary explaining key terms. It focuses on how technology-based practices can support the teaching of individual subjects, as well as a range of teaching and learning styles. Key topics covered include: Support reading and writing with ICT Enhancing mathematics with technology ICT in the foundation subjects Computer programming Creativity and ICT ICT and sustainability Linking home and school Digital technologies for special educational needs Mobile technologies Gaming and virtual worlds Assessment E-Safety Written for all training primary teachers, as well as more experienced teachers and ICT co-ordinators looking for guidance on the latest innovative practice,Teaching and Learning with ICT in the Primary School, 2nd edition offers advice and ideas for creative, engaging and successful teaching and learning.
While most children learn to read fairly well, there remain many young Americans whose futures are imperiled because they do not read well enough to meet the demands of our competitive, technology-driven society. This book explores the problem within the context of social, historical, cultural, and biological factors. Recommendations address the identification of groups of children at risk, effective instruction for the preschool and early grades, effective approaches to dialects and bilingualism, the importance of these findings for the professional development of teachers, and gaps that remain in our understanding of how children learn to read. Implications for parents, teachers, schools, communities, the media, and government at all levels are discussed. The book examines the epidemiology of reading problems and introduces the concepts used by experts in the field. In a clear and readable narrative, word identification, comprehension, and other processes in normal reading development are discussed. Against the background of normal progress, Preventing Reading Difficulties in Young Children examines factors that put children at risk of poor reading. It explores in detail how literacy can be fostered from birth through kindergarten and the primary grades, including evaluation of philosophies, systems, and materials commonly used to teach reading.
In today’s digital world, it is critical to ensure technology is utilized appropriately and best practices for adoption are continuously updated, particularly when it comes to education. New technologies provide myriad opportunities for improvement within early childhood development; however, further study is required to fully understand the different tactics and strategies. The Research Anthology on Early Childhood Development and School Transition in the Digital Era considers how technology can assist with the development of young children and identifies different technologies that should be utilized within education for the benefit of students. Covering key topics such as instructional design, learning, literacy, and technology, this major reference work is ideal for administrators, principals, researchers, scholars, practitioners, academicians, instructors, and students.
This edited book provides an overview of unstructured and structured play scenarios crucial to developing young children’s awareness, interest, and ability to learn Science, Technology, Engineering and Mathematics (STEM) in informal and formal education environments. The key elements for developing future STEM capital, enabling children to use their intuitive critical thinking and problem-solving abilities, and promoting active citizenship and a scientifically literate workforce, begins in the early years as children learn through play, employing trial and error, and often investigating on their own. Forty-seven STEM experts come together from 16 countries (Argentina, Australia, Belgium, Canada, England, Finland, Germany, Israel, Jamaica, Japan, Malta, Mauritius, Mexico, Russia, Sweden, and the USA) and describe educational policies and experiences related to young learners 3–4 years of age, as well as students attending formal-nursery school, early primary school, and the early years classes post 5 years of age. The book is intended for parents seeking to provide STEM activities for their children at home and in playgroups, citizen scientists seeking guidance to provide children with quality educational activities, daycare practitioners providing educational structures for young children from birth to formal education, primary school teachers and preservice teachers seeking to teach preschool, kindergarten or children typically aged 5–8 years old in grades 1–3, as well as researchers and policy makers working in science didactics with small children.
This book presents innovations in teaching and learning science, novel approaches to science curriculum, cultural and contextual factors in promoting science education and improving the standard and achievement of students in East Asian countries. The authors in this book discuss education reform and science curriculum changes and promotion of science and STEM education, parental roles and involvement in children's education, teacher preparation and professional development and research in science education in the context of international benchmarking tests to measure the knowledge of mathematics and science such as the Trends in Mathematics and Science Study (TIMSS) and achievement in science, mathematics and reading like Programme for International Student Assessment (PISA). Among the high achieving countries, the performance of the students in East Asian countries such as Singapore, Taiwan, Korea, Japan, Hong Kong and China (Shanghai) are notable. This book investigates the reasons why students from East Asian countries consistently claim the top places in each and every cycle of those study. It brings together prominent science educators and researchers from East Asia to share their experience and findings, reflection and vision on emerging trends, pedagogical innovations and research-informed practices in science education in the region. It provides insights into effective educational strategies and development of science education to international readers.
Science in secondary schools has tended to be viewed mainly as a 'practical subject', and language and literacy in science education have been neglected. But learning the language of science is a major part of science education: every science lesson is a language lesson, and language is a major barrier to most school students in learning science. This accessible book explores the main difficulties in the language of science and examines practical ways to aid students in retaining, understanding, reading, speaking and writing scientific language. Jerry Wellington and Jonathan Osborne draw together and synthesize current good practice, thinking and research in this field. They use many practical examples, illustrations and tried-and-tested materials to exemplify principles and to provide guidelines in developing language and literacy in the learning of science. They also consider the impact that the growing use of information and communications technology has had, and will have, on writing, reading and information handling in science lessons. The authors argue that paying more attention to language in science classrooms is one of the most important acts in improving the quality of science education. This is a significant and very readable book for all student and practising secondary school science teachers, for science advisers and school mentors.
Mobile technologies combined with an interdisciplinary approach to knowledge and organization of learning experiences that are meaningful to children could create a creative and interactive learning environment different from that of traditional teaching. Making good use of mobile learning with appropriate devices will increase the learning motivations of the students and help them bring about positive performance. Mobile Learning Applications in Early Childhood Education is a collection of innovative research on the methods and applications of mobile learning techniques and strategies within diversified teaching settings. While highlighting topics including computational thinking, ubiquitous learning, and social development, this book is ideally designed for researchers, teachers, parents, curriculum developers, instructional designers, academicians, students, and practitioners seeking current research on the application of mobile technology within child education.