Starting Science...Again?

Starting Science...Again?

Author: Martin Braund

Publisher: SAGE

Published: 2008-10-09

Total Pages: 185

ISBN-13: 0857026968

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′The structure [of this book] encourages active participation via reflective activity boxes which further allows for the engagement and consolidation of ideas...Evidence based research is cited resulting in the author suggesting a number of practical activities to encourage progression and continuity in science′ - ESCalate Why do pupils′ learning and motivation slow down markedly as they move from primary to secondary school? Why is this situation worse in science than in any other curriculum subject? This book combines reports of and reflection on best practice in improving progression and continuity of teaching and learning in science - particularly at that transition stage between primary and secondary school. Presenting the views of teachers and pupils on progression, learning and application of science, the book suggests practical ways of improving teaching and learning in science. Each chapter includes examples of learning materials with notes on how these might be used or adapted by teachers in their own classroom settings. Science teaching in secondary schools is often based on assumptions that children know or can do very little, so the job in the secondary school becomes one of showing pupils how to start ′doing science properly′, as if from scratch. The damage that this false view can do to pupils′ learning, motivation and confidence is clear. This book will help teachers to assess children′s prior knowledge effectively and build meaningful and enjoyable science lessons.


How Science Works

How Science Works

Author: Rob Toplis

Publisher: Routledge

Published: 2010-12-02

Total Pages: 168

ISBN-13: 1136876413

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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.


Learning to Teach Science in the Secondary School

Learning to Teach Science in the Secondary School

Author: Lindsay Hetherington

Publisher: Taylor & Francis

Published: 2024-06-27

Total Pages: 366

ISBN-13: 1040033083

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Learning to Teach Science in the Secondary School is an indispensable guide to the process, practice, and reality of learning to teach science in a busy secondary school. Written by experienced teachers and expert academics, it explores core debates and topics in science education, providing practical and insightful advice with research and theory to support your development as a teacher. This fully updated fifth edition focuses on the knowledge and skills you will need to develop your science teaching including key approaches to teaching physics, chemistry, and biology, lesson and curriculum planning, and assessment. There are also new chapters on: Safety in science teaching The science of learning for teaching science Mathematics and learning science Science for social justice Inclusive and adaptive science teaching Making use of research: practical guidance for science teachers Written with university and school-based initial teacher education in mind and including learning objectives, lists of useful resources, and specially designed tasks in every chapter Learning to Teach Science in the Secondary School offers all student and early career teachers accessible and comprehensive guidance to support the journey of becoming an effective science teacher.


Debates in Science Education

Debates in Science Education

Author: Mike Watts

Publisher: Routledge

Published: 2014-01-03

Total Pages: 254

ISBN-13: 1317964063

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What are the key debates in science teaching and learning today? Debates in Science Education explores the major issues all science teachers encounter in their daily professional lives. It encourages critical reflection and aims to stimulate both novice and experienced teachers to think more deeply about their practice, and link research and evidence to what they have observed in schools. Written by expert science educators, chapters tackle established and contemporary issues enabling you to reach informed judgements and argue your point of view with deeper theoretical knowledge and understanding. Each chapter is supported and extended by carefully selected further reading and reflective questions. Key debates include: the impact of policy on science education; transition from primary to secondary school; getting right the secondary science curriculum; girls in science; sex education and science; school science and technology; language and communication in the classroom; world science, local science. With its combination of expert opinion and fresh insight, Debates in Science Education is the ideal companion for any student or practising teacher engaged in initial training, continuing professional development and Masters level study.


Powerful Ideas of Science and How to Teach Them

Powerful Ideas of Science and How to Teach Them

Author: Jasper Green

Publisher: Routledge

Published: 2020-07-19

Total Pages: 214

ISBN-13: 0429583605

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A bullet dropped and a bullet fired from a gun will reach the ground at the same time. Plants get the majority of their mass from the air around them, not the soil beneath them. A smartphone is made from more elements than you. Every day, science teachers get the opportunity to blow students’ minds with counter-intuitive, crazy ideas like these. But getting students to understand and remember the science that explains these observations is complex. To help, this book explores how to plan and teach science lessons so that students and teachers are thinking about the right things – that is, the scientific ideas themselves. It introduces you to 13 powerful ideas of science that have the ability to transform how young people see themselves and the world around them. Each chapter tells the story of one powerful idea and how to teach it alongside examples and non-examples from biology, chemistry and physics to show what great science teaching might look like and why. Drawing on evidence about how students learn from cognitive science and research from science education, the book takes you on a journey of how to plan and teach science lessons so students acquire scientific ideas in meaningful ways. Emphasising the important relationship between curriculum, pedagogy and the subject itself, this exciting book will help you teach in a way that captivates and motivates students, allowing them to share in the delight and wonder of the explanatory power of science.


Science Communication

Science Communication

Author: Annette Leßmöllmann

Publisher: Walter de Gruyter GmbH & Co KG

Published: 2019-12-16

Total Pages: 555

ISBN-13: 3110393212

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Science is an essentially cooperative, critical, and dynamic enterprise. Were it not for the continuous creation and improvement of special forms of communication, argumentation, and innovation, all of them suitable for its three key features, scientific knowledge and progress could hardly be achieved. The aim of this volume is to explore the nature of science communication in its several functions, modalities, combinations, and evolution - past, present, and future. One of our objectives is to provide an overview of the richness and variety of elements that take part in performing the complex tasks and fulfilling the functions of science communication. The overall structure and criteria for the choice of topics: 1. The origin and target of a communication episode - its source(s) and addressee(s). 2. The media of communication employed. 3. The thematic field and content types. 4. The distinction between aspects of science communication (e.g., media, texttypes, domains, communicative maxims) and aspects of research on science communication (e.g., the contribution of different research traditions to the understanding of science communication). 5. The history and dynamics of science communication (past, present, and future), both in an empirical perspective (e.g., the development of the research article) and a systematic perspective (e.g., what are basic types and mechanisms of change in science communication).


Bridging the Transition from Primary to Secondary School

Bridging the Transition from Primary to Secondary School

Author: Alan Howe

Publisher: Routledge

Published: 2011-06-02

Total Pages: 185

ISBN-13: 1136738096

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Bridging the Transition from Primary to Secondary School offers an insight into children's development, building a framework for the creation of appropriate and relevant educational experiences of children between the ages of 10-12.


Community, Competition and Citizen Science

Community, Competition and Citizen Science

Author: Anne Holohan

Publisher: Routledge

Published: 2016-12-05

Total Pages: 217

ISBN-13: 1351950118

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Voluntary distributed computing projects divide large computational tasks into small pieces of data or work that are sent out over the Internet to be processed by individual users, who participate voluntarily in order to provide solutions that would ordinarily require investments of millions of dollars. This approach is contributing to the transformation of computationally heavy scientific research, opening up participation in science to interested lay people and greatly reducing the cost-barriers to computation for financially challenged researchers. Drawing on face-to-face and online ethnographic, survey and interview data with participants in distributed computing projects around the world, this book sheds light on the organizational and social structures of voluntary distributed computing projects, communities and teams, with close attention to questions of motivation in projects that offer little or no traditional forms of reward, either financially or in terms of participants' careers. With its focus on non-market, non-hierarchical cooperation, this book is a case study of networked individuals around the world who are part of a new social production of information. A rich study of the transformative potential inherent in globalization and connectedness, Community, Competition and Citizen Science will appeal to sociologists and political scientists with interests in globalization, networks and science and technology studies, together with scholars and students of media and communication and those working in relevant fields of computing, information systems and scientific collaboration.


Researching Primary Education: Methods and Issues

Researching Primary Education: Methods and Issues

Author: Rosemary Webb

Publisher: Routledge

Published: 2013-09-13

Total Pages: 111

ISBN-13: 1317987330

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This book increases understanding of, and provides inspiration for, the conduct of research in primary/elementary education. It discusses and evaluates the selection and development of research methods used for their own innovatory projects. They explore the relationship between their choice of research methods, the frameworks for analysis used and research findings. In so doing they address the topical and controversial issues posed by these methods and alternative data-gathering techniques. These include: the case for the use of random-controlled trials to inform policy-making and improve classroom practice the role of mixed methods to investigate the social aspects of inclusion children as researchers researching their peers the relationship between research and teacher development an analysis of the portrayal of teachers and education in the regional and national news the contribution of qualitative research in cross-national projects. In research on teaching and learning in primary schools, accessing the views and experiences of children is crucial. Consequently, the possibilities and limitations of data collection techniques for collecting the views of children are central and concerns about validity and ethics posed by the power relationships between researchers and research participants are examined. This book was based on a special issue of Educational 3-13 International Journal of Primary, Elementary and Early Years Education.


Economic Theory and Cognitive Science

Economic Theory and Cognitive Science

Author: Don Ross

Publisher: MIT Press

Published: 2007-01-26

Total Pages: 455

ISBN-13: 0262681684

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In this study, Don Ross explores the relationship of economics to other branches of behavioral science, asking, in the course of his analysis, under what interpretation economics is a sound empirical science. The book explores the relationships between economic theory and the theoretical foundations of related disciplines that are relevant to the day-to-day work of economics—the cognitive and behavioral sciences. It asks whether the increasingly sophisticated techniques of microeconomic analysis have revealed any deep empirical regularities—whether technical improvement represents improvement in any other sense. Casting Daniel Dennett and Kenneth Binmore as its intellectual heroes, the book proposes a comprehensive model of economic theory that, Ross argues, does not supplant, but recovers the core neoclassical insights, and counters the caricaturish conception of neoclassicism so derided by advocates of behavioral or evolutionary economics. Because he approaches his topic from the viewpoint of the philosophy of science, Ross devotes one chapter to the philosophical theory and terminology on which his argument depends and another to related philosophical issues. Two chapters provide the theoretical background in economics, one covering developments in neoclassical microeconomics and the other treating behavioral and experimental economics and evolutionary game theory. The three chapters at the heart of the argument then apply theses from the philosophy of cognitive science to foundational problems for economic theory. In these chapters, economists will find a genuinely new way of thinking about the implications of cognitive science for economics, and cognitive scientists will find in economic behavior, a new testing site for the explanations of cognitive science.