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John Parkinson encourages teachers to reflect on their current teaching practice and guides them to improving their teaching and, consequently, their pupils learning.
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.
A key new textbook which is part of a new series co-published with The Open University Written to be used in conjunction with its counterpart in the Teaching in the Secondary School series. Between them they address both the theoretical and practical issues in science teaching Examples of good practice are underpinned by reference to research and other literature
'This book places students center stage in the discussion of how we know what students know. Using formative assessment to understand student learning is a theme grounded in good teaching and good assessment!' - Jo Topps, Regional Director K-12 Alliance/WestEd 'This book incorporates current research and not only provides an explanation of the necessity of formative assessment, but offers a system for planning lessons and a variety of tools to implement formative assessment in the classroom' - Susan Leeds, Science Department Chair and Gifted Studies Teacher Howard Middle School, Winter Park, FL Research has shown that when teachers use formative assessments effectively, they have a clearer understanding of what students know and are better able to design instruction that meets learners' needs. This practical guide shows teachers how to create and implement formative assessments in their middle and high school science classrooms. Grounded in extensive and solid research, this guide covers all science content areas - physics/physical science, life science/biology, earth and space science, and chemistry - as well as five types of formative assessments: big idea questions, concept maps, evidence-to-explanation, predict-observe-explain, and multiple choice. Teachers will find additional support in: - Richly detailed, concrete examples of the five types of assessments - In-depth guidelines for implementing the assessments - Brief case studies with transcript excerpts that demonstrate how teachers have used formative assessments - Easy-to-use templates to help analyze lessons in current units and identify places for inserting formative assessments With this easy-to-use, hands-on guide, any teacher can learn how to use formative assessment strategies to improve student achievement in science.
Teaching science is no simple task. Science teachers must wrestle with highly abstract and demanding concepts, ideas which have taken humanity's greatest minds thousands of years to formulate and refine. Communicating these great and awesome theories involves careful forethought and planning. We need to deliver crystal clear explanations, guide students as they develop their embryonic knowledge and then release them to develop their thinking independently, all the while curating and tending to their long-term understanding as it develops over time. In Teaching Secondary Science: A Complete Guide, Adam breaks down the complex art of teaching science into its component parts, providing a concrete and comprehensive set of evidence-informed steps to nurturing brilliant science students. Adam hopes that you find this book interesting, but his main aim is for you to find it useful. Useful when it comes to sketching out your curriculum, useful when preparing your explanations, useful for mapping out how you will check student understanding and useful for all other aspects of science teaching. This is a truly complete guide, and science teachers of any experience will find it packed with ideas that are new, challenging, interesting and, most importantly, useful.
A comprehensive guide To The theory and practice of teaching minds-on practical work in secondary science.
Specialists from Australia, Canada, Europe, the United Kingdom, and the United States present a broad range of perspectives for improving science education in primary and secondary schools. This volume offers educators and researchers a glimpse at what peers from around the world have done to help science students achieve high levels of success. The introduction is a concise account of worldwide reform movements, from modernizations in the 1950s that dramatically improved the teaching of chemistry and physics to such changes in the 1980s as the emphasis on the learning-to-learn approach and the trend toward using social issues as a vehicle for teaching science. The nine essays survey topics that include teaching inquiry skills and other techniques to foster a joy of science; creating an understanding of real-world applications of science; managing course instruction with computers; encouraging teachers to adopt new styles of teaching; cross-national comparisons of science achievement; and the differences between boys and girls in attitude, learning, and degree of participation.
The fourth edition of Teaching Secondary Science has been fully updated and includes a wide range of new material. This invaluable resource offers a new collection of sample lesson plans and includes two new chapters covering effective e-learning and advice on supporting learners with English as a second language. It continues as a comprehensive guide for all aspects of science teaching, with a focus on understanding pupils’ alternative frameworks of belief, the importance of developing or challenging them and the need to enable pupils to take ownership of scientific ideas. This new edition supports all aspects of teaching science in a stimulating environment, enabling pupils to understand their place in the world and look after it. Key features include: Illustrative and engaging lesson plans for use in the classroom Help for pupils to construct new scientific meanings M-level support materials Advice on teaching ‘difficult ideas’ in biology, chemistry, physics and earth sciences Education for sustainable development and understanding climate change Managing the science classroom and health and safety in the laboratory Support for talk for learning, and advice on numeracy in science New chapters on e-learning and supporting learners with English as a second language. Presenting an environmentally sustainable, global approach to science teaching, this book emphasises the need to build on or challenge children’s existing ideas so they better understand the world in which they live. Essential reading for all students and practising science teachers, this invaluable book will support those undertaking secondary science PGCE, school-based routes into teaching and those studying at Masters level.
When you begin a new unit and discover that some students don't understand an important concept, do you just correct the error and give them the answer? If so, you run the risk that students will memorise what you say without changing their core misconceptions. This book explores how to identify such moments through 'responsive listening' and turn them into opportunities to build students' science literacy.