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​This edited volume explores how primary school teachers create rich opportunities for science learning, higher order thinking and reasoning, and how the teaching of science in Australia, Germany and Taiwan is culturally framed. It draws from the international and cross-cultural science education study EQUALPRIME: Exploring quality primary education in different cultures: A cross-national study of teaching and learning in primary science classrooms. Video cases of Year 4 science teaching were gathered by research teams based at Edith Cowan University, Deakin University, the Freie Universität Berlin, the National Taiwan Normal University and the National Taipei University of Education. Meetings of these research teams over a five year period at which data were shared, analysed and interpreted have revealed significant new insights into the social and cultural framing of primary science teaching, the complexities of conducting cross-cultural video-based research studies, and the strategies and semiotic resources employed by teachers to engage students in reasoning and meaning making. The book’s purpose is to disseminate the new insights into quality science teaching and how it is framed in different cultures; methodological advancements in the field of video-based classroom research in cross-cultural settings; and, implications for practice, teacher education and research. “The chapters (of this book) address issues of contemporary relevance and theoretical significance: embodiment, discursive moves, the social unit of learning and instruction, inquiry, and reasoning through representations. Through all of these, the EQUALPRIME team manages to connect the multiple cultural perspectives that characterise this research study. The ‘meta-reflection’ chapters offer a different form of connection, linking cultural and theoretical perspectives on reasoning, quality teaching and video-based research methodologies. The final two chapters offer connective links to implications for practice in teacher education and in cross-cultural comparative research into teaching and learning. These multiple and extensive connections constitute one of the books most significant accomplishments. The EQUALPRIME project, as reported in this book, provides an important empirical base that must be considered by any system seeking to promote sophisticated science learning and instructional practices in primary school classrooms. By exploring the classroom realisation of aspirational science pedagogies, the EQUALPRIME project also speaks to those involved in teacher education and to teachers. I commend this book to the reader. It offers important insights, together with a model of effective, collegial, collaborative inter-cultural research. It will help us to move forward in important ways”. Professor David Clarke, Melbourne University
As educational standards continue to transform, it has become essential for educators and pre-service teachers to receive the support and training necessary to effectively instruct their students and meet societal expectations. However, there is not a clear consensus on what constitutes teacher effectiveness and quality within the education realm. The Handbook of Research on Professional Development for Quality Teaching and Learning provides theoretical perspectives and empirical research on educator preparation and methods for enhancing the teaching process. Focusing on teacher effectiveness and support provided to current and pre-service educators, this publication is a comprehensive reference source for practitioners, researchers, policy makers, graduate students, and university faculty.
If the status and quality of science education in schools is to improve, efforts need to be made to better understand the classroom practices of effective science teachers. Teachers are key players in a re-imagining of science education. This book explores how two primary school teachers, identified as effective practitioners, approached science teaching and learning over a unit of work. In recording the teaching and learning experiences in their classrooms, the author highlights how the two teachers adopted different approaches, drawing on their particular beliefs and knowledge, to support student learning in science in ways that were appropriate to their contexts as well as reflected their different experiences, strengths and backgrounds. Through sharing their stories, this book illustrates, that due to the complex nature of teaching and learning, there is no one way of defining effectiveness. In documenting this research, it is hoped that other teachers and teacher educators will be inspired to think about primary school science education in innovative ways.
Scientific contributions authored by distinguished experts from the field of early education are published periodically within the framework of the series Scientific Studies on the Work of the “Haus der kleinen Forscher” Foundation. This publication series serves to foster informed dialogue between the Foundation, scientists, and practitioners with the aim of giving all early childhood education and care centres, after-school centres, and primary schools in Germany scientifically sound support in fulfilling their early education mandate. This fifth volume in the series focuses on goals of science education at the level of the children, the early childhood professionals, and the pedagogical staff at after-school centres and primary schools, and on process-related quality criteria for science teaching at pre-primary and primary level. In their expert reports, Yvonne Anders, Ilonca Hardy, Sabina Pauen, Beate Sodian, and Mirjam Steffensky specify pedagogical content dimensions of the goals of early science education at pre-primary and primary school age. In addition to theoretically underpinning these goals, the authors present instruments for their assessment. In his expert report, Jörg Ramseger formulates ten quality criteria for science teaching. Early childhood professionals and pedagogical staff at after-school centres and primary schools can draw on these process-related criteria when planning lessons and conducting self-evaluations of science learning opportunities at pre-primary and primary level. The concluding chapter of the volume describes the implementation of these expert recommendations in the substantive offerings of, and the accompanying research on, the “Haus der kleinen Forscher“ Foundation.
"This book comes at just the right time, as teachers are being encouraged to re-examine current approaches to science instruction." -Lynn Rankin, Director, Institute for Inquiry, Exploratorium "Easy to read and comprehend with very explicit examples, it will be foundational for classroom teachers as they journey from novice teacher of science to expert." -Jo Anne Vasquez, Ph.D., Past President of the National Science Teachers Association "Teaching Science for Understanding is a comprehensive, exquisitely written guide and well-illustrated resource for high quality teaching and learning of inquiry-based science." -Hubert M. Dyasi, Ph.D., Professor of Science, City College and City University of New York Even though there is an unending supply of science textbooks, kits, and other resources, the practice of teaching science is more challenging than simply setting up an experiment. In Teaching Science for Understanding in Elementary and Middle Schools, Wynne Harlen focuses on why developing understanding is essential in science education and how best to engage students in activities that deepen their curiosity about the world and promote enjoyment of science. Teaching Science for Understanding in Elementary and Middle Schools centers on how to build on the ideas your students already have to cultivate the thinking and skills necessary for developing an understanding of the scientific aspects of the world, including: helping students develop and use the skills of investigation drawing conclusions from data through analyzing, interpreting, and explaining creating classrooms that encourage students to explain and justify their thinking asking productive questions to support students' understanding. Through classroom vignettes, examples, and practical suggestions at the end of each chapter, Wynne provides a compelling vision of what can be achieved through science education...and strategies that you can implement in your classroom right now.
Currently, many states are adopting the Next Generation Science Standards (NGSS) or are revising their own state standards in ways that reflect the NGSS. For students and schools, the implementation of any science standards rests with teachers. For those teachers, an evolving understanding about how best to teach science represents a significant transition in the way science is currently taught in most classrooms and it will require most science teachers to change how they teach. That change will require learning opportunities for teachers that reinforce and expand their knowledge of the major ideas and concepts in science, their familiarity with a range of instructional strategies, and the skills to implement those strategies in the classroom. Providing these kinds of learning opportunities in turn will require profound changes to current approaches to supporting teachers' learning across their careers, from their initial training to continuing professional development. A teacher's capability to improve students' scientific understanding is heavily influenced by the school and district in which they work, the community in which the school is located, and the larger professional communities to which they belong. Science Teachers' Learning provides guidance for schools and districts on how best to support teachers' learning and how to implement successful programs for professional development. This report makes actionable recommendations for science teachers' learning that take a broad view of what is known about science education, how and when teachers learn, and education policies that directly and indirectly shape what teachers are able to learn and teach. The challenge of developing the expertise teachers need to implement the NGSS presents an opportunity to rethink professional learning for science teachers. Science Teachers' Learning will be a valuable resource for classrooms, departments, schools, districts, and professional organizations as they move to new ways to teach science.
Learning and Teaching Primary Science brings primary science to life through the stories and experiences of pre-service and practising teachers. It explores the roles of the teacher and the learner of science and examines major issues and challenges, including: engaging diverse learners, utilising technology, assessment and reporting, language and representation, and integration in the 'crowded curriculum'. Each chapter contains examples, activities and reflective questions to help readers create relevant and meaningful lesson plans. Dedicated chapters for the areas of chemistry, physics, biology and earth and environmental science will give confidence to those without a science background. Practical strategies and skills are underpinned by relevant theories and evidence-based research. Written by experts from Australia and New Zealand, Learning and Teaching Primary Science is an essential resource for those beginning their journey of teaching science in the primary school classroom.
Do you need quick and easy access to great ideas for teaching primary science? If so then this is the book for you! Creative Ways to Teach Primary Science draws on the best ideas about teaching primary science, using an evidence-based approach which recognizes that there are some proven and more effective methods for teaching primary science. Creativity is one of the most powerful indicators of successful teaching, and the key is a willingness to take risks and to accept uncertainty. This can be tricky for busy teachers, so this book lends you a helping hand! The authors explain why the methods presented are successful and encourage you to apply these creative techniques to new situations. The book: Offers a handy 'one stop shop' of creative ideas for teaching primary science Provides a 'helping hand' for you to get started in the classroom by presenting a range of teaching methods that are proven to work Encourages creativity and experimentation, regularly recognized as features of outstanding teaching Inspires you to develop all the ideas for yourself Providing a highly practical and accessible handbook to the creative aspects of teaching and learning primary science, this is invaluable reading for trainee and practising primary teachers.
First Published in 1997. This innovative series is an ideal means of supporting professional practice in the post-Dearing era, when a new focus on the quality of teaching and learning is possible. The series promotes reflective teaching and active forms of pupil learning. The books explore the implications of these commitments for curriculum and curriculum-related issues. The changes in this second edition of the book reflect the different context of science education and the needs of teachers in the late-1990s: new material is included on National Curriculum links, assessment, planning and professional development
Who was right about gravity - Aristotle or Galileo? Do woodlice like the damp or the sunshine? Now in full colour, the new edition of this core textbook is packed full of exciting ideas and methods to help trainees and teachers looking for creative ways of teaching science to primary school children. It′s the perfect step-by-step guide for anyone teaching science for the first time. Reflecting the new curriculum, the third edition has been extensively updated throughout and now includes: · a brand new chapter on teaching science outdoors · lots of guidance on how to work scientifically in the classroom · a new focus on assessment of ‘secondary readiness’ · new activities and case studies, with helpful links to developing scientific skills With practical examples, case studies, clear guidance on how to turn theory into creative practice, and lots of ideas for lively science lessons and activities, this is the ideal book for anyone studying primary science on initial teacher education courses, and teachers looking for new ideas to use in the classroom.