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Critical Issues and Bold Visions for Science Education contains 16 chapters written by 32 authors from 11 countries. The book is intended for a broad audience of teachers, teacher educators, researchers, and policymakers. Interesting perspectives, challenging problems, and fresh solutions grounded in cutting edge theory and research are presented, interrogated, elaborated and, while retaining complexity, offer transformative visions within a context of political tensions, historical legacies, and grand challenges associated with Anthropocene (e.g., sustainability, climate change, mass extinctions). Within overarching sociocultural frameworks, authors address diverse critical issues using rich theoretical frameworks and methodologies suited to research today and a necessity to make a difference while ensuring that all participants benefit from research and high standards of ethical conduct. The focus of education is broad, encompassing teaching, learning and curriculum in pre-k-12 schools, museums and other informal institutions, community gardens, and cheeseworld. Teaching and learning are considered for a wide range of ages, languages, and nationalities. An important stance that permeates the book is that research is an activity from which all participants learn, benefit, and transform personal and community practices. Transformation is an integral part of research in science education. Contributors are: Jennifer Adams, Arnau Amat, Lucy Avraamidou, Marcília Elis Barcellos, Alberto Bellocchi, Mitch Bleier, Lynn A. Bryan, Helen Douglass, Colin Hennessy Elliott, Alejandro J. Gallard Martínez, Elisabeth Gonçalves de Souza, Da Yeon Kang, Shakhnoza Kayumova, Shruti Krishnamoorthy, Ralph Levinson, Sonya N. Martin, Jordan McKenzie, Kathy Mills, Catherine Milne, Ashley Morton, Masakata Ogawa, Rebecca Olson, Roger Patulny, Chantal Pouliot, Leah D. Pride, Anton Puvirajah, S. Lizette Ramos de Robles, Kathryn Scantlebury, Glauco S. F. da Silva, Michael Tan, Kenneth Tobin, and Geeta Verma.
This handbook gathers in one volume the major research and scholarship related to multicultural science education that has developed since the field was named and established by Atwater in 1993. Culture is defined in this handbook as an integrated pattern of shared values, beliefs, languages, worldviews, behaviors, artifacts, knowledge, and social and political relationships of a group of people in a particular place or time that the people use to understand or make meaning of their world, each other, and other groups of people and to transmit these to succeeding generations. The research studies include both different kinds of qualitative and quantitative studies. The chapters in this volume reflect differing ideas about culture and its impact on science learning and teaching in different K-14 contexts and policy issues. Research findings about groups that are underrepresented in STEM in the United States, and in other countries related to language issues and indigenous knowledge are included in this volume.
This book consists of stories of struggles in science education presented by a network of science educators working in Australia, Brazil, Canada, Britain, and the United States. The common goal of these educators is to produce more socially/ecologically just models and practices of science education. The book considers and reworks the key-terms of current social justice: agency, realism, justice, and power. Its first section explores re-inhabiting science in the quest for more just worlds including reterritorializing science within emergent theories of critical realism, engaging citizens activists with corporate science, and challenging neoliberalism and the forces that organize (structure) knowledge. The second section redefines praxis of science education itself through nuanced explorations of agency, decolonialism, and justice in ways that emphasize complexity, hybridity, ambivalence, and contradiction. The stories of this international group capture individual and collective efforts, motivated by a persistent sense that science and science education matter for questions of justice.
This book explores innovative approaches to teacher professional learning, examples of teaching enacted in classrooms, and factors affecting the promotion of quality teaching in socio-scientific issues and sustainability contexts. Since educational settings and cultures influence teaching, the different approaches and perspectives in various cross-national contexts enable us to appreciate the diversity of different countries’ practices and provide insight into seminal approaches to socio-scientific issues-based teaching internationally. The book consists of three parts: innovative professional development programs, innovative teaching approaches, and issues relating to student engagement with socio-scientific issues and sustainability education. The book targets those who can be expected to develop curriculum, enact teaching practices, and facilitate teachers’ professional development in socio-scientific issues and sustainability education.
This book brings researchers from across the world to share their expertise, experience, research and reflections on science education in India to make the trends and innovations visible. The thematic parts of the book discuss science education: overviews across K-16 levels; inclusivity and access for underrepresented and marginalized sections; use of innovations including technology in the teaching; and implications for research, practice, innovation and creativity. The book should be of special interest to researchers, school administrators, curriculum designers and policymakers. A timely compilation for current and future generations of academic researchers, teachers and policymakers who are interested in examining the issues facing one of the largest education systems in the world. The book offers unique insights into contemporary topics such as girls in STEM subjects, curriculum reform and developing a generation of future creative thinkers. -Professor Vaille Dawson, The University of Western Australia, Australia. It provides a panorama of challenges in a country of more than 1.3 billion people, 50% being below the age of 25 years. The book arrives at a time in which there are discouraging trends, including a decrease in funding for education. The book chapters are centred on issues that warrant debate to foster awareness of the roles of science education in India and priorities and possibilities for expanding horizons on the road ahead. -Professor Kenneth Tobin, The City University of New York, New York, USA.
This book project poses a major challenge to Japanese science education researchers in order to disseminate research findings on and to work towards maintaining the strength and nature of Japanese science education. It also presents a unique opportunity to initiate change and/or develop science education research in Japan. It provides some historical reasons essential to Japanese students’ success in international science tests such as TIMSS and PISA. Also, it helps to tap the potential of younger generation of science education researchers by introducing them to methods and designs in the research practice.
Addressing underlying issues in science education and teacher training, which contribute to continued underrepresentation of racial and ethnic minority students in STEM and STEAM subjects and careers, this timely volume illustrates how a critical postmodern science pedagogy (CPSP) can be used effectively to raise awareness of diversity issues amongst preservice teachers. Using a case study design consisting of class observations, interviews, content analysis, questionnaires, and instructional interventions in preservice teacher training, the volume bridges science and multicultural education and investigates how curricular development and teacher preparation can be used to ensure that science education itself promotes diversity within STEM, and throughout education. Chapters also examine the intersections of science education and science literacy for both students and teachers and, in doing so, promote the importance of positive and accurate representation of diversity within science and research discourse. The book attempts to raise awareness regarding the need for meaningful curricular reform that creates real opportunities to address historical and scientific misinformation, while increasing diversity and inclusion in schools and society. This important text will be of interest to postgraduate students, researchers, scholars, and preservice teachers in the fields of science and mathematics education, STEM, multicultural education, teacher education, urban education, and the sociology of education.
By investigating the re-emergence of intellectual, moral, and civic virtues in the practice and teaching of science, this text challenges the increasing professionalization of science; questions the view of scientific knowledge as objective; and highlights the relationship between democracy and science. Written by a range of experts in science, the history of science, education and philosophy, the text establishes the historical relationship between natural philosophy and the Aristotelian virtues before moving to the challenges that the relationship faces, with the emergence, and increasing hegemony, brought about by the professionalization of science. Exploring how virtues relate to citizenship, technology, and politics, the chapters in this work illustrate the ways in which virtues are integral to understanding the values and limitations of science, and its role in informing democratic engagement. The text also demonstrates how the guiding virtues of scientific inquiry can be communicated in the classroom to the benefit of both individuals and wider societies. Scholars in the fields of Philosophy of Science, Ethics and Philosophy of Education, as well as Science Education, will find this book to be highly useful.
Suited for students of educational research and researchers and practitioners involved in teaching and learning, teacher education, and policy. Readers experience potentially transformative research that is applicable to today’s challenges.
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.