This book reports on a study on physics problem solving in real classrooms situations. Problem solving plays a pivotal role in the physics curriculum at all levels. However, physics students' performance in problem solving all too often remains limited to basic routine problems, with evidence of poor performance in solving problems that go beyond equation retrieval and substitution. Adopting an action research methodology, the study bridges the `research-practical divide by explicitly teaching physics problem-solving strategies through collaborative group problem-solving sessions embedded within the curriculum. Data were collected using external assessments and video recordings of individual and collaborative group problem-solving sessions by 16-18 year-olds. The analysis revealed a positive shift in the students' problem-solving patterns, both at group and individual level. Students demonstrated a deliberate, well-planned deployment of the taught strategies. The marked positive shifts in collaborative competences, cognitive competences, metacognitive processing and increased self-efficacy are positively correlated with attainment in problem solving in physics. However, this shift proved to be due to different mechanisms triggered in the different students.

Science education, particularly school science education, has long had an uneasy relationship with ethics, being unsure whether to embrace ethics or leave it to others. In this book, the authors argue that while the methods of science and of ethics are very different, ethics plays a key role in how science is undertaken and used. And so, ethics has a central place in science education, whether we are talking of school science education, for students of all ages, or the informal science education that takes place in through internet, books, magazines, TV and radio, or in places such as hospitals and zoos. Written for science educators based in schools and elsewhere, the authors make no assumptions that the reader has any knowledge of ethics beyond the background understandings of morality that virtually all of us have. Empowered with the knowledge shared in this book, readers will feel confident about the place that ethics has in science education. The authors provide a rich array of examples as to how science education, both in school and out of school, and for all ages, can be enhanced through including teaching about ethics.

In this accessible analysis, a philosopher and a science educator look at biological theory and society through a synthesis of mechanistic and organicist points of view to best understand the complexity of life and biological systems. The search for a unified framework for biology is as old as Plato's musings on natural order, which suggested that the universe itself is alive. But in the twentieth century, under the influence of genetics and microbiology, such organicist positions were largely set aside in favor of mechanical reductionism, by which life looks like a more complicated version of physics, one that can be reduced to the behavior of organic molecules. But can organisms truly be understood in mechanical terms, or do we need to view life from the perspective of whole organisms to make sense of biological complexity? The New Biology argues for the validity of holistic treatments of nature from the perspectives of philosophy, history, and biology and outlines the largely unrecognized undercurrent of organicism that has persisted. Mechanistic biology has been invaluable in understanding a range of biological issues, but Michael Reiss and Michael Ruse contend that reductionism alone cannot answer all our questions about life. Whether we are considering human health, ecology, or the relationship between sex and gender, we need to draw from both organicist and mechanistic frameworks. It's not always a matter of combining organicist and mechanistic perspectives, Reiss and Ruse argue. There is scope for a range of ways of understanding the complexity of life and biological systems. Organicist and mechanistic approaches are not simply hypotheses to be confirmed or refuted, but rather operate as metaphors for describing a universe of sublime intricacy.

This volume brings together an international set of contributors in education research, policy and practice to respond to the influence the noted academic Professor Michael Young has had on sociology, curriculum studies and professional knowledge over the past fifty years, and still has on the field to this day. It provides a critical analysis of his work and the uses to which it has been put in the UK and internationally, discussing implications for debates on the purpose of education and how school curricula, as well as programmes in other educational settings, could be run and teaching undertaken, based on his contribution. Following Michael's long and distinguished career - dating back to before Knowledge and Control: New Directions for the Sociology of Education, which Michael edited in 1971 - recent years have seen an upsurge in both academic and policy interest in his work, including the new concern he expressed for knowledge in his 2007 book Bringing Knowledge Back In. The book concludes with an appreciation and a response to the authors from Michael Young and a Coda from Charmian Cannon, who was on the Institute of Education panel that appointed Michael to his post in 1967. This timely book is a unique critique and celebration, written by experts whose own careers have been affected by Michael, and will appeal to all those with an interest in the work of Michael Young.

This book brings together the latest research in education in relation to science and religion. Leading international scholars and practitioners provide vital insights into the underlying debates and present a range of practical approaches for teaching. Key themes include the origin of the universe, the theory of evolution, the nature of the human person, the nature of science and Artificial Intelligence. These are explored in a range of international contexts. The book provides a valuable resource for teachers, students and researchers in the fields of education, science, religious education and the growing specialist field of science and religion. Science and Religion in Education is a compelling read for current and future generations of academic researchers and teachers who wish to explore the fascinating intersect between science education and religious studies. The research findings and insights presented by these international scholars offer new dimensions on contemporary practice. - Vaille Dawson, Professor of Science Education, University of Western Australia Science and Religion in Education offers a fascinating and diverse collection of chapters surveying the current state of thinking about how science and religion can be understood in education. The book offers a wealth of thought-provoking material for anyone interested in the natures of science and religion, their relationship(s), or their representation within the curriculum. - Professor Keith Taber, University of Cambridge Science education and religious education are uncomfortable bedfellows. This book, written in part as a response to the - perhaps too clear - accounts of Ian Barbour, provides suitably nuanced pictures of how science and religion are dealt with in schools. Whatever the views of specialists, young people 'receive' an education in both science and religion: hearing their voices is refreshing in such a serious academic account. - Julian Stern, Professor of Education and Religion, York St John University Humans have long endeavored to make sense of the world often using science and religion. Yet, these two great traditions are frequently seen as incompatible. This useful volume features thoughtful contributions from experts whose work straddles the divide and provides educators with arguments, engaging strategies and historical perspectives to help build a bridge and allow a fruitful discussion in schools. - William F. McComas, Distinguished Professor of Science Education, University of Arkansas Equal parts critical examination of existing models for the relationship between science and religion, scholarly exposition of newer models, and insights toward practical application in classrooms, this book is an invaluable resource for science and religion educators. If you have been thinking it is time we looked beyond Barbour's taxonomy, you will want to read this book. If you have not, I implore you to read this book. - Jason Wiles, Associate Professor of Biology and Science Education, Syracuse University

This salient text presents a culturally aware public health approach to the HIV epidemic in Malaysia, a country emblematic of the Muslim world's response to the crisis. It explores complex interactions of religion with health as a source of coping as well as stigma and denial, particularly as Islam plays a central role in Malaysian culture, politics, and policy. At the heart of the book, a groundbreaking study analyzes attitudes and behaviors toward prevention among diverse people living with HIV, faith leaders, and government health officials. From these findings, readers gain insight into how health professionals, policymakers, and organizations can create appropriate prevention programs in Malaysia, with implications for other Muslim countries. This timely volume: Situates Malaysia and the Asian Pacific region in the context of the HIV epidemic. Analyzes ways Islamic beliefs can shape perceptions of HIV and prevention policy. Reviews a unique study of stakeholder opinions and practices regarding HIV. Discusses the consequences of Islamic rulings on sex outside marriage. Offers recommendations for effective HIV prevention practice and policy. Islam and Health Policies Related to HIV Prevention in Malaysia is of immediate relevance to researchers studying HIV prevention, social aspects of religion, sexuality, and sex education. Policymakers in health promotion and health education as well as graduate students in sex education, sociology, psychology, and cultural studies should also find it useful.

'Rethinking Biology offers many useful perspectives on a range of topics: why neuroscience and brain imaging threaten to create a reductive view of self and behaviour every bit as misleading as the genetic one, why adaptationism needs taming in evolutionary narratives ...'Public Understanding of ScienceBiologists always need to grapple with integrating two explanatory approaches. On the one hand, there is necessarily an effort to drill down to the lowest possible level to explain what is happening in whatever is being studied. That involves looking at how higher-level processes arise from lower level ones. On the other hand, there is a need to consider how the broader context influences bottom-up processes; that involves looking at how the whole influences the parts. Neither approach is satisfactory on its own. There is always a need to integrate the consideration of how parts influence wholes with how wholes influence parts.This book arises from a concern that in the public dissemination of biology the need to integrate these different perspectives is not coming across well. In popularisations, simplistic micro explanations always seem to arouse most interest and to capture the headlines. That risks distorting and simplifying the complexity of biological processes, and can mislead people. In this book we are urging a concerted attempt to come to grips with the interactive complexity of biology, and to find ways of conveying it to the public accessibly and effectively.We are particularly concerned with how biology is communicated to the public. Too often, what comes over to the public is a crude, out-of-date, simplistic, mono-causal, reductionist biology. Why so? Why is biology so misrepresented? Who is responsible? It is partly the media, of course, but we suggest that biologists themselves are often partly responsible. When it comes to communication with the public, they tend to over-simplify in a way that distorts.Related Link(s)

'Rethinking Biology offers many useful perspectives on a range of topics: why neuroscience and brain imaging threaten to create a reductive view of self and behaviour every bit as misleading as the genetic one, why adaptationism needs taming in evolutionary narratives ...'Public Understanding of ScienceBiologists always need to grapple with integrating two explanatory approaches. On the one hand, there is necessarily an effort to drill down to the lowest possible level to explain what is happening in whatever is being studied. That involves looking at how higher-level processes arise from lower level ones. On the other hand, there is a need to consider how the broader context influences bottom-up processes; that involves looking at how the whole influences the parts. Neither approach is satisfactory on its own. There is always a need to integrate the consideration of how parts influence wholes with how wholes influence parts.This book arises from a concern that in the public dissemination of biology the need to integrate these different perspectives is not coming across well. In popularisations, simplistic micro explanations always seem to arouse most interest and to capture the headlines. That risks distorting and simplifying the complexity of biological processes, and can mislead people. In this book we are urging a concerted attempt to come to grips with the interactive complexity of biology, and to find ways of conveying it to the public accessibly and effectively.We are particularly concerned with how biology is communicated to the public. Too often, what comes over to the public is a crude, out-of-date, simplistic, mono-causal, reductionist biology. Why so? Why is biology so misrepresented? Who is responsible? It is partly the media, of course, but we suggest that biologists themselves are often partly responsible. When it comes to communication with the public, they tend to over-simplify in a way that distorts.Related Link(s)

Science education, particularly school science education, has long had an uneasy relationship with ethics, being unsure whether to embrace ethics or leave it to others. In this book, the authors argue that while the methods of science and of ethics are very different, ethics plays a key role in how science is undertaken and used. And so, ethics has a central place in science education, whether we are talking of school science education, for students of all ages, or the informal science education that takes place in through internet, books, magazines, TV and radio, or in places such as hospitals and zoos. Written for science educators based in schools and elsewhere, the authors make no assumptions that the reader has any knowledge of ethics beyond the background understandings of morality that virtually all of us have. Empowered with the knowledge shared in this book, readers will feel confident about the place that ethics has in science education. The authors provide a rich array of examples as to how science education, both in school and out of school, and for all ages, can be enhanced through including teaching about ethics.

'A careful and thoughtful provocation' (Justin Welby, Archbishop of Canterbury) Ambitiously placed at the intersection of scientific insights and spiritual wisdom, Human Flourishing prompts us to reflect on what constitutes a good life and the choices that can help achieve it. For thousands of years, humans have asked 'Why we are here?' and 'What makes for a good life?' At different times, different answers have held sway. Nowadays, there are more answers proposed than ever. Much of humanity still finds the ultimate answers to such questions in religion. But in countries across the globe, secular views are widely held. In any event, whether religious or secular, individuals, communities and governments still have to make decisions about what people get from life. This book therefore examines what is meant by human flourishing and see what it has to offer for those seeking after truth, meaning and purpose. This is a book written for anyone who wants a future for themselves, their children, and their fellow humans - a future that enables flourishing, pays due consideration to issues of truth and helps us find meaning and purpose in our lives. At a time when most of us are bombarded with messages about what we should or should not do to live healthily, attain a work-life balance and find meaning, a careful consideration of the contributions of both scientific insight and spiritual wisdom provides a new angle. This is therefore a book that not only helps readers clarify their views and see things afresh but also help them improve their own well-being in an age of AI and other new technologies.

This book brings together the latest research in education in relation to science and religion. Leading international scholars and practitioners provide vital insights into the underlying debates and present a range of practical approaches for teaching. Key themes include the origin of the universe, the theory of evolution, the nature of the human person, the nature of science and Artificial Intelligence. These are explored in a range of international contexts. The book provides a valuable resource for teachers, students and researchers in the fields of education, science, religious education and the growing specialist field of science and religion. Science and Religion in Education is a compelling read for current and future generations of academic researchers and teachers who wish to explore the fascinating intersect between science education and religious studies. The research findings and insights presented by these international scholars offer new dimensions on contemporary practice. - Vaille Dawson, Professor of Science Education, University of Western Australia Science and Religion in Education offers a fascinating and diverse collection of chapters surveying the current state of thinking about how science and religion can be understood in education. The book offers a wealth of thought-provoking material for anyone interested in the natures of science and religion, their relationship(s), or their representation within the curriculum. - Professor Keith Taber, University of Cambridge Science education and religious education are uncomfortable bedfellows. This book, written in part as a response to the - perhaps too clear - accounts of Ian Barbour, provides suitably nuanced pictures of how science and religion are dealt with in schools. Whatever the views of specialists, young people 'receive' an education in both science and religion: hearing their voices is refreshing in such a serious academic account. - Julian Stern, Professor of Education and Religion, York St John University Humans have long endeavored to make sense of the world often using science and religion. Yet, these two great traditions are frequently seen as incompatible. This useful volume features thoughtful contributions from experts whose work straddles the divide and provides educators with arguments, engaging strategies and historical perspectives to help build a bridge and allow a fruitful discussion in schools. - William F. McComas, Distinguished Professor of Science Education, University of Arkansas Equal parts critical examination of existing models for the relationship between science and religion, scholarly exposition of newer models, and insights toward practical application in classrooms, this book is an invaluable resource for science and religion educators. If you have been thinking it is time we looked beyond Barbour's taxonomy, you will want to read this book. If you have not, I implore you to read this book. - Jason Wiles, Associate Professor of Biology and Science Education, Syracuse University

The technique of allometry investigates the effects of size on such variables as food intake, energy requirements, growth rates and age at first reproduction. This book, now available in paperback, brings together much of what is known about the consequences of size and provides a new and mathematically rigorous framework within which many quantitative predictions are made and tested using published and unpublished data. New explanations are proposed for many previously unexplained phenomena such as why in some species females are thousands of times heavier than males, whereas in no species are males more than about eight times heavier than females. The models presented afford a new synthesis of the effects of size and open up more pathways for further theoretical investigation and experimental testing. Care has been taken to give verbal presentations of all the mathematical conclusions to ensure that the text is widely intelligible.

The technique of allometry investigates the effects of size on such variables as food intake, energy requirements, growth rates and age at first reproduction. This book, now available in paperback, brings together much of what is known about the consequences of size and provides a new and mathematically rigorous framework within which many quantitative predictions are made and tested using published and unpublished data. New explanations are proposed for many previously unexplained phenomena such as why in some species females are thousands of times heavier than males, whereas in no species are males more than about eight times heavier than females. The models presented afford a new synthesis of the effects of size and open up more pathways for further theoretical investigation and experimental testing. Care has been taken to give verbal presentations of all the mathematical conclusions to ensure that the text is widely intelligible.

Little more than a decade ago the term "genetic engineering" was hardly known outside research laboratories. Today it regularly makes headlines. Those in favor of genetic engineering--and those against it--tell us that it has the potential to change our lives perhaps more than any other scientific or technological advance. But what are the likely consequences of genetic engineering? Is it ethically acceptable? Should we be trying to improve on nature? In Improving Nature?, the authors, a biologist and a moral philosopher, examine the implications of genetic engineering in every aspect of our lives. The underlying science is clearly explained and the moral and ethical considerations are fully disussed, resulting in a wide-ranging, balanced overview of a controversial subject. Michael Jonathan Reiss, a biologist, is Professor of Science Education and Head of Science & Technology, University of London Institute of Education. He is the author of Understanding Science Lessons (Open University Press, 2000). Roger Straughan is Reader in Education at the University of Reading. He is the author of Beliefs, Behaviour and Education (Cassell Academic, 1989). Previous paperback edition (1996) 0-521-63754-6