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Teaching Primary Science Constructively helps readers to create effective science learning experiences for primary students by using a constructivist approach to learning. This best-selling text explains the principles of constructivism and their implications for learning and teaching, and discusses core strategies for developing science understanding and science inquiry processes and skills. Chapters also provide research-based ideas for implementing a constructivist approach within a number of content strands. Throughout there are strong links to the key ideas, themes and terminology of the revised Australian Curriculum: Science. This sixth edition includes a new introductory chapter addressing readers' preconceptions and concerns about teaching primary science.
This guide provides trainee teachers with an insight into the nature and teaching of primary science. It aims to introduce you to the ways in which children learn science, and to the science itself. Each Unit can be studied independently or used to support/prepare for school experiences. You will be directed towards additional reading, which will develop or confirm the subject knowledge you will need to achieve QTS. the curriculum guide is up-to-date, revised to take account of Curriculum 2000 and accepted 'good practice' in primary science teaching and learning. It is also flexible - many of the Units are stand-alone. They can be undertaken in any order, at your own pace, to complement school experiences. The Units are practical and feasible: the activities suggested can be undertaken by the non-specialist; in many cases without specialized equipment or access to large numbers of pupils. The guide is comprehensive, covering all the primary science elements in Curriculum 2000 and giving background information into other aspects of primary science teaching. It is also supportive - the guide suggests further texts to support trainees' own understanding of the scientific and pedagogical concepts involved. Additional reading draws on the TTA's list of approved key texts. The original text was piloted by students following a distance-learning PGCE course. It has been revised and updated in line with their comments and to meet Curriculum 2000 and Curriculum Guidance for the Foundation Stage. The text was initially developed as a core text for the part-time distance-learning course at Liverpool Hope and is designed for trainee teachers on distance learning and flexible routes, returning, converting or overseas teachers.
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.
Why is science hard to teach? What types of scientific investigation can you use in the primary classroom? Touching on current curriculum concerns and the wider challenges of developing high-quality science education, this book is an indispensable overview of important areas of teaching every aspiring primary school teacher needs to understand including: the role of science in the curriculum, communication and literacy in science teaching, science outside the classroom, transitional issues and assessment. Key features of this second edition include: • A new chapter on science in the Early Years • A new practical chapter on how to work scientifically • Master’s-level ‘critical reading’ boxes in every chapter linking topics to relevant specialist literature • Expanded coverage of creativity, and link science to numeracy and computing This is essential reading for all students studying primary science on initial teacher education courses, including undergraduate (BEd, BA with QTS), postgraduate (PGCE, School Direct, SCITT), and also NQTs. Mick Dunne is Senior Lecturer in Science Education at Manchester Metropolitan University Alan Peacock is Honorary Research Fellow at the University of Exeter
Primary Science Education: A Teacher's Toolkit is an accessible and comprehensive guide to primary school science education and its effective practice in the classroom. Primary Science Education is structured in two parts: Planning for Science and Primary Science in the Classroom. Each chapter covers fundamental topics, such as: curriculum requirements (including the Australian Curriculum and Australian Professional Standards for Teachers); preparing effective learning sequences with embedded authentic assessment; combining science learning with other learning areas, such as technologies and STEM; and critically analysing the teacher's role in the classroom. The text features short-answer and 'Bringing it Together' questions to encourage readers to consolidate their understanding of key themes. Case studies throughout provide guidance on the classroom experience and Teacher Background Information boxes explore topics where more in-depth knowledge is required. The book is supported by a suite of online resources, including interviews with Australian primary teachers and students, and downloadable activities.
Here is an idea that just might save the world. It is that science, properly understood, provides us with the methodological key to the salvation of humanity. A version of this idea can be found in the works of Karl Popper. Famously, Popper argued that science cannot verify theories but can only refute them, and this is how science makes progress. Scientists are forced to think up something better, and it is this, according to Popper, that drives science forward.But Nicholas Maxwell finds a flaw in this line of argument. Physicists only ever accept theories that are unified – theories that depict the same laws applying to the range of phenomena to which the theory applies – even though many other empirically more successful disunified theories are always available. This means that science makes a questionable assumption about the universe, namely that all disunified theories are false. Without some such presupposition as this, the whole empirical method of science breaks down.By proposing a new conception of scientific methodology, which can be applied to all worthwhile human endeavours with problematic aims, Maxwell argues for a revolution in academic inquiry to help humanity make progress towards a better, more civilized and enlightened world.