This book examines ways in which beliefs and values interact with science and science teaching. It looks at some of the spiritual, moral, social and cultural contexts within which science has developed and considers how these factors can affect the choice of scientific theory. Various historical sections provide resource material for showing pupils the role of the history of science in the study of science. Interactions between science and religious belief are also analysed to clarify the nature, strengths and limitations of science as well as its place in the total curriculum. Publication of this book is particularly timely as contributions to pupils' spiritual, moral, social and cultural development are currently receiving emphasis across the whole curriculum.
In 2007, the Monash-Kings College London International Centre for the Study of Science and Mathematics Curriculum edited a book called The Re-emergence of Values in Science Education. This book reflects on how values have been considered since this original publication, particularly in terms of socio-cultural, economic and political factors that have impacted broadly on science, technology and society, and more specifically on informal and formal science curricula. Hence, the title of this book has been framed as Values in Science Education: The shifting sands. As in the first book, this collection focuses on values that are centrally associated with science and its teaching, and not the more general notion of values such as cooperation or teamwork that are also important values in current curricula. Such values have indeed become more of a focus in science education. This may be a response to the changing global context, where technological changes have been rapid and accelerating. In such complex and risky environments, it is our guiding principles that become the important mainstays of our decisions and practices. In terms of science education, what is becoming clearer is that traditional content and traditional science and scientific methods are not enough for science and hence science education to meet such challenges. While shifts in values in science education continue, tensions remain in curriculum development and implementation, as evidenced by the continued diversity of views about what and whose values matter most.
Social psychologists have studied beliefs and values, and related constructs such as "attitudes" and "prejudice" for decades. But as this innovative and interdisciplinary book convincingly demonstrates, the scientific examination of beliefs and values now influences research and practice across a range of disciplines. Specifically, this edited volume explores the many cutting edge implications and applications of Equilintegration or EI Theory and the Beliefs, Events, and Values Inventory (BEVI). Grounded in twenty years of research and practice, EI Theory seeks to explain the processes by which beliefs, values, and worldviews are acquired and maintained, why their alteration is resisted, and under what circumstances they are modified. Based upon EI Theory, the BEVI is a comprehensive analytic tool which examines how and why we come to see ourselves, others, and the larger world as we do as well as the influence of such processes on multiple aspects of human functioning. Edited by the developer of the EI model and BEVI method, and informed by contributions from leading U.S. and international scholars, this book features captivating research findings and pioneering practice applications. Research-focused chapters explain how the EI model and BEVI method increase our conceptual sophistication and methodological capacity across a range of areas: Culture, Development, Environment, Gender, Personality, Politics, and Religion. Practice-oriented chapters demonstrate how the BEVI is used in the real world across a range of applied domains: Assessment, Education, Forensics, Leadership, and Psychotherapy. Written in an accessible and engaging manner, this fascinating and timely volume speaks to many of the most pressing issues of our day, by illuminating why we believe what we believe, and demonstrating how our beliefs and values may be assessed, explained, and transformed in the real world. Key Features: Presents an interdisciplinary theoretical model and innovative assessment method derived from two decades of work on the etiology, maintenance, and transformation of beliefs and values Features contributions from leading scholars from the U.S. and internationally, demonstrating the many implications and applications of this cutting edge approach for research and practice Demonstrates the importance of "making sense of beliefs and values" in addressing many of the most pressing issues of our day
This book comprises a wide range of scholarly essays introducing readers to key topics and issues in science education. Science education has become a well established field in its own right, with a vast literature, and many active areas of scholarship. Science Education: An International Course Companion offers an entry point for students seeking a sound but introductory understanding of the key perspectives and areas of thinking in science education. Each account is self-contained and offers a scholarly and research-informed introduction to a particular topic, theme, or perspective, with both citations to key literature and recommendations for more advanced reading. Science Education: An International Course Companion allows readers (such as those preparing for school science teaching, or seeking more advanced specialist qualifications) to obtain a broad familiarity with key issues across the field as well as guiding wider reading about particular topics of interest. The book therefore acts as a reader to support learning across courses in science education internationally. The broad coverage of topics is such that that the book will support students following a diverse range of courses and qualifications. The comprehensive nature of the book will allow course leaders and departments to nominate the book as the key reader to support students - their core 'course companion' in science education.
Issues relating to values have always had a place in the school science curriculum. Sometimes this has been only in terms of the inclusion of topics such as 'the nature of science' and/or 'scientific method' and/or particular intentions for laboratory work that relate to 'scientific method.'sometimes it has been much broader, for example in curricula with STS emphases. Of importance to aspects of this proposal is that different countries/cultures have had different traditions in terms of the place of values in the school [science] curriculum. One obvious very broad difference of this form is the central place in [science] education thinking in many European countries of bildung, and the complete absence of this construct from most [science] curriculum thinking in English speaking contexts. There are numbers of such country/cultural differences. In the 1990s many countries moved towards various conceptualizations of Outcomes Based Education - OBE (sometimes so labelled and sometimes not). It was usual (but not universal) for OBE focused science curricula to have constrained views of the values that should be implicit and explicit in curriculum; that is views concerned only with 'the nature of science' and 'scientific method' (both usually seen as quite unproblematic). Currently there are a number of education systems that are changing again, and choosing to move away from Outcomes Based Education (for example, South Africa and several Australian states). One of the most interesting features of many of these movements is the re-embracing of a wider view of the science curriculum, including a reconsideration of the nature and place of the values associated with science in the purposes for and approaches to science education.
Science and faith are often seen as being in opposition. In this book, award-winning sociologist Elaine Howard Ecklund questions this assumption based on research she has conducted over the past fifteen years. She highlights the ways these two spheres point to universal human values, showing readers they don't have to choose between science and Christianity. Breathing fresh air into debates that have consisted of more opinions than data, Ecklund offers insights uncovered by her research and shares her own story of personal challenges and lessons. In the areas most rife with conflict--the origins of the universe, evolution, climate change, and genetic technology--readers will find fascinating points of convergence in eight virtues of human existence: curiosity, doubt, humility, creativity, healing, awe, shalom, and gratitude. The book includes discussion questions for group use and to help pastors, small group leaders, and congregants broach controversial topics and bridge the science-faith divide.
Science Teaching argues that science teaching and science teacher education can be improved if teachers know something of the history and philosophy of science and if these topics are included in the science curriculum. The history and philosophy of science have important roles in many of the theoretical issues that science educators need to address: what constitutes an appropriate science curriculum for all students; how science should be taught in traditional cultures; how scientific literacy can be promoted; and the conflict which can occur between science curriculum and deep-seated religious or cultural values and knowledge. Outlining the history of liberal approaches to the teaching of science, Michael Matthews elaborates contemporary curriculum developments that explicitly address questions about the nature and the history of science. He provides examples of classroom teaching and develops useful arguments on constructivism, multicultural science education and teacher education.
Science and technology are embedded in virtually every aspect of modern life. As a result, people face an increasing need to integrate information from science with their personal values and other considerations as they make important life decisions about medical care, the safety of foods, what to do about climate change, and many other issues. Communicating science effectively, however, is a complex task and an acquired skill. Moreover, the approaches to communicating science that will be most effective for specific audiences and circumstances are not obvious. Fortunately, there is an expanding science base from diverse disciplines that can support science communicators in making these determinations. Communicating Science Effectively offers a research agenda for science communicators and researchers seeking to apply this research and fill gaps in knowledge about how to communicate effectively about science, focusing in particular on issues that are contentious in the public sphere. To inform this research agenda, this publication identifies important influences â€" psychological, economic, political, social, cultural, and media-related â€" on how science related to such issues is understood, perceived, and used.
Educational researchers are bound to see this as a timely work. It brings together the work of leading experts in argumentation in science education. It presents research combining theoretical and empirical perspectives relevant for secondary science classrooms. Since the 1990s, argumentation studies have increased at a rapid pace, from stray papers to a wealth of research exploring ever more sophisticated issues. It is this fact that makes this volume so crucial.