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"I read lots of books in which science education researchers tell science teachers how to teach. This book, refreshingly, is written the other way round.We read a number of accounts by outstanding science and technology teachers of how they use new approaches to teaching to motivate their students and maximise their learning. These accounts are then followed by some excellentanalyses from leading academics. I learnt a lot from reading this book." Professor Michael Reiss, Institute of Education, University of London "Provides an important new twist on one of the enduring problems of case-based learning... This is a book that deserves careful reading and re-reading, threading back and forwards from the immediate and practical images of excellence in the teachers’ cases to the comprehensive andscholarly analyses in the researchers’ thematic chapters." Professor William Louden, Edith Cowan University, Australia Through a celebration of teaching and research, this book explores exemplary practice in science education and fuses educational theory and classroom practice inunique ways. Analysing Exemplary Science Teaching brings together twelve academics, ten innovativeteachers and three exceptional students in a conversation about teaching and learning.Teachers and students describe some of their most noteworthy classroom practice,whilst scholars of international standing use educational theory to discuss, define andanalyse the documented classroom practice. Classroom experiences are directly linked with theory by a series of annotatedcomments. This distinctive web-like structure enables the reader to actively movebetween practice and theory, reading about classroom innovation and then theorizingabout the basis and potential of this teaching approach. Providing an international perspective, the special lessons described and analysed aredrawn from middle and secondary schools in the UK, Canada and Australia. This bookis an invaluable resource for preservice and inservice teacher education, as well as forgraduate studies. It is of interest to a broad spectrum of individuals, including trainingteachers, teachers, researchers, administrators and curriculum coordinators in scienceand technology education.
""This is an excellent source of ideas on using the media to enrich science teaching and engage pupils. It contains numerous ideas on using newspapers and other sources in science and how to encourage young people to read them carefully and critically." Prof Jerry Wellington, School of Education, University of Sheffield, UK "Throughout the book, all the ideas, content, suggestions and arguments are supported by in-depth research and solid referencing, making this an authoritative, yet eminently readable, reference volume for current and would-be secondary science teachers." School Science Review Science-related news stories have great potential as a resource for teaching and learning about science and its impact on society. By demonstrating the relevance of the subject in everyday life, they can form a valuable bridge between the school classroom and the ‘real world’. Worldwide, those advocating science education reform stress the need to promote ‘scientific literacy’ among young people and typically this includes equipping students to critically engage with science reports in the media. However, very little guidance exists for those who wish to do so. Developing Scientific Literacy addresses this gap, offering a much-needed framework for teachers wishing to explore ‘science in the media’ in secondary schools or colleges. It suggests how teachers across a number of subject areas can collaborate to promote among young people an aptitude and ability to engage thoughtfully with science in the media. Drawing on research and development work, the authors: Describe key characteristics of science news reporting Discuss its potential as a resource for teaching and learning about science and for developing young people’s criticality in respect of such reports Identify appropriate instructional objectives and suggest activities through which these might be achieved This timely book is a source of valuable ideas and insights for all secondary science teachers. It will also be of interest to those with responsibilities for initial teacher training and continuing professional development.
"Bishop and Denley in Learning Science Teaching have focused as much on good pedagogy as on the peculiarities of science teaching. It is for this reason that their book will be of value not only to trainees in education, but also to a range of professionals working in schools, Higher Education and, in particular, to those responsible for planning and delivering CPD. It is far more than a test for trainee teachers." Science Teacher Education "Any science teacher looking for ways to improve their teaching will find this book helpful...there is perceptive discussion of almost everything that can happen in a science classroom, and related work outside it." Physics Education What do you need to know to be a successful science teacher? How do you develop or acquire that knowledge? If you are just embarking on your learning journey as a science teacher, or are involved in supporting beginning and early career teachers on their way, then this book is written for you. The authors show how the route to success involves the development of a personal, yet distinctive and complex set of inter-related professional knowledge bases. Throughout the book, the classroom practice of a group of highly accomplished science teachers is analysed to reveal the knowledge bases that they have acquired, which the reader can then reflect upon. In addition, students provide penetrating insights into the kinds of science teaching that engages them. The book argues that highly accomplished science teachers are also continually learning science teachers. It stresses the importance of learning through others, by participation in communities of science practitioners, as well as individual learning through classroom research. Whether you are a beginning teacher or a more experienced teacher looking to support beginning and early career teachers, this book offers a rich source of experiences, ideas and insights to support you on your journey to becoming a successful science teacher.
This edited volume is the premier book dedicated exclusively to marine science education and improving ocean literacy, aiming to showcase exemplary practices in marine science education and educational research in this field on a global scale. It informs, inspires, and provides an intellectual forum for practitioners and researchers in this particular context. Subject areas include sections on marine science education in formal, informal and community settings. This book will be useful to marine science education practitioners (e.g. formal and informal educators) and researchers (both education and science).
Reviewers’ comments on the first edition: “Jane Johnston communicates a sense of effervescent enthusiasm for teaching and science, and her treatment is comprehensive.” TES “The ideas and recommendations, based on considerable classroom experience, make this book a valuable aid to students and reflective early years practitioners.” Primary Science Review “At last! A serious attempt to explore the scientific potential of infant and pre-school children… The author explains how scientific skills can be developed at an early stage, stimulating the natural inquisitive streak in children. This book…will start you thinking about science in a much more positive light.” Child Education This accessible and practical book supports good scientific practice in the early years. It helps practitioners to be creative providers, and shows them how to develop awe and wonder of the world in the children they teach. The book highlights the importance of a motivating learning environment and skilled interaction with well-trained adults. In addition, fundamental issues are explored such as the range, nature and philosophical underpinning of early years experiences and the development of emergent scientific skills, understandings and attitudes. New features for this edition include: An extended age range encompassing early learning from 0 – 8 Updated material for the Foundation Stage Curriculum for 3 – 5-year-olds and the National Curriculum 2000 for 5 – 8-year-olds A new chapter focusing on conceptual understanding and thinking skills in the early years An emphasis on the importance of informal learning and play in early development The book introduces and discusses new research and thinking in early years and science education throughout, making it relevant for current practice. This is an indispensable resource for all trainee and practising primary school teachers and early years practitioners.
This collection examines issues of agency, power, politics and identity as they relate to science and technology and education, within contemporary settings. Social, economic and ecological critique and reform are examined by numerous contributing authors, from a range of international contexts. These chapters examine pressing pedagogical questions within socio-scientific contexts, including petroleum economies, food justice, health, environmentalism, climate change, social media and biotechnologies. Readers will discover far reaching inquiries into activism as an open question for science and technology education, citizenship and democracy. The authors call on the work of prominent scholars throughout the ages, including Bourdieu, Foucault, Giroux, Jasanoff, Kierkegaard, Marx, Nietzsche, Rancière and Žižek. The application of critical theoretical scholarship to mainstream practices in science and technology education distinguishes this book, and this deep, theoretical treatment is complemented by many grounded, more pragmatic exemplars of activist pedagogies. Practical examples are set within the public sphere, within selected new social movements, and also within more formal institutional settings, including elementary and secondary schools, and higher education. These assembled discussions provide a basis for a more radically reflexive reworking of science and technology education. Educational policy makers, science education scholars, and science and technology educators, amongst others, will find this work thought-provoking, instructive and informative.
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.
This book discusses the scope of science education research and practice in Asia. It is divided into five sections: the first consists of nine chapters providing overviews of science education in Asia (China, Lebanon, Macau, Malaysia, Mongolia, Oman, Singapore, Taiwan, and Thailand). The second section offers chapters on content analysis of research articles, while the third includes three chapters on assessment and curriculum. The fourth section includes four chapters on innovative technology in science education; and the fifth section consists of four chapters on professional development, and informal learning. Each section also has additional chapters providing specific comments on the content. This collection of works provides readers with a starting point to better understand the current state of science education in Asia.
The Oxford Handbook of Undergraduate Psychology Education is dedicated to providing comprehensive coverage of teaching, pedagogy, and professional issues in psychology. The Handbook is designed to help psychology educators at each stage of their careers, from teaching their first courses and developing their careers to serving as department or program administrators. The goal of the Handbook is to provide teachers, educators, researchers, scholars, and administrators in psychology with current, practical advice on course creation, best practices in psychology pedagogy, course content recommendations, teaching methods and classroom management strategies, advice on student advising, and administrative and professional issues, such as managing one's career, chairing the department, organizing the curriculum, and conducting assessment, among other topics. The primary audience for this Handbook is college and university-level psychology teachers (at both two and four-year institutions) at the assistant, associate, and full professor levels, as well as department chairs and other psychology program administrators, who want to improve teaching and learning within their departments. Faculty members in other social science disciplines (e.g., sociology, education, political science) will find material in the Handbook to be applicable or adaptable to their own programs and courses.
Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe, Arab States, and Sub-Saharan Africa. The focus of this Handbook is on science education in Europe. In producing this volume the editors have invited a range of authors to describe their research in the context of developments in the continent and further afield. In reading this book you are invited to consider the historical, social and political contexts that have driven developments in science education research over the years. A unique feature of science education in Europe is the impact of the European Union on research and development over many years. A growing number of multi-national projects have contributed to the establishment of a community of researchers increasingly accepting of methodological diversity. That is not to say that Europe is moving towards homogeneity, as this volume clearly shows.