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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.
This book presents research involving learning opportunities that are afforded to learners of science when the focus is on linking the formal and informal science education sectors. It uses the metaphor of a "landscape" as it emphasises how the authors see the possible movement within a landscape that is inclusive of formal, informal and free-choice opportunities. The book explores opportunities to change formal school science education via perspectives and achievements from the informal and free-choice science education sector within the wider lifelong, life-wide education landscape. Additionally it explores how science learning that occurs in a more inclusive landscape can demonstrate the potential power of these opportunities to address issues of relevance and engagement that currently plague the learning of science in school settings. Combining specific contexts, case studies and more general examples, the book examines the science learning landscapes by means of the lens of an ecosystem and the case of the Synergies longitudinal research project. It explores the relationships between school and museum, and relates the lessons learned through encounters with a narwhal. It discusses science communication, school-community partnerships, socioscientific issues, outreach education, digital platforms and the notion of a learning ecology.
Assessment is a fundamental issue in research in science education, in curriculum development and implementation in science education as well as in science teaching and learning. This book takes a broad and deep view of research involving assessment in science education, across contexts and cultures (from whole countries to individual classrooms) and across forms and purposes (from assessment in the service of student learning to policy implications of system wide assessment). It examines the relationships between assessment, measurement and evaluation; explores assessment philosophies and practices in relation to curriculum and scientific literacy/learning; and details the relationships between assessment and science education policy. The third in a series, Valuing Assessment in Science Education has chapters from a range of international scholars from across the globe and staff from Monash University, King's College London and University of Waikato. The two previous books in the series examined research relevant to the re-emergence of values in science education and teaching across the spectrum of science education as well as across cultural contexts through the professional knowledge of science teaching. This third book now moves to examine different aspects of generating understanding about what science is learnt, how it is learnt, and how it is valued. Valuing Assessment in Science Education will appeal to all those with some engagement with and/or use of research in science education, including research students, academics, curriculum development agencies, assessment authorities, and policy makers. It will also be of interest to all classroom science teachers who seek to keep abreast of the latest research and development and thinking in their area of professional concern.
This volume considers the future of science learning - what is being learned and how it is being learned - in formal and informal contexts for science education. To do this, the book explores major contemporary shifts in the forms of science that could or should be learned in the next 20 years, what forms of learning of that science should occur, and how that learning happens, including from the perspective of learners. In particular, this volume addresses shifts in the forms of science that are researched and taught post-school - emerging sciences, new sciences that are new integrations, "futures science", and increases in the complexity and multidisciplinarity of science, including a multidisciplinarity that embraces ways of knowing beyond science. A central aspect of this in terms of the future of learning science is the urgent need to engage students, including their non-cognitive, affective dimensions, both for an educated citizenry and for a productive response to the ubiquitous concerns about future demand for science-based professionals. Another central issue is the actual impact of ICT on science learning and teaching, including shifts in how students use mobile technology to learn science.
The purpose of this edited book is to enrich the literature related to STEM education at kindergarten, primary and secondary levels in Asia, with particular attention given to the analysis of the educational context in a number of Asian countries, including STEM-related policies, pedagogical practices, and the design and evaluation of STEM programmes. The discussions look into impacts on student learning outcomes and the ways in which STEM education is catering for schools and students' interests and needs. The contributors are experts in STEM education or are leading major research and development projects in STEM in their regions. The book's first section is focused at the macro-level on the conceptualization and formulation of STEM education policies in different regions, contributing to our understanding of the current status of STEM education in Asia. The second section examines some features of STEM learning and teaching at the classroom level and includes studies on student learning in STEM programmes. Pedagogical innovations implemented in different parts of Asia are also reported and discussed. The third section moves to teacher education and teacher professional development. It discusses practices of teacher professional development in the region and reports on current provisions as well as challenges. Together, the contributions from different Asian regions invite researchers and educators to learn from effective STEM practices, and point out areas for further development. Chapters "An Overview of STEM Education in Asia" and "STEM Teacher Professional Development for Primary School Teachers in Hong Kong" are available open access under a CC BY 4.0 license at link.springer.com.
Twenty-five years ago there was increasing optimism in policy, curriculum and research about the contribution that technology education might make to increased technological literacy in schools and the wider population. That optimism continues, although the status of technology as a learning area remains fragile in many places. This edited book is offered as a platform from which to continue discussions about how technology education might progress into the future, and how the potential of technology education to be truly relevant and valued in school learning can be achieved. The book results from a collaboration between leading academics in the field, the wider group of authors having had input into each of the chapters. Through the development of a deep understanding of technology, based on a thoughtful philosophy, pathways are discussed to facilitate student learning opportunities in technology education. Consideration is given to the purpose(s) of technology education and how this plays out in curriculum, pedagogies, and assessment. Key dimensions, including design, critique, students' cultural capital are also explored, as are the role and place of political persuasion, professional organisations, and research that connects with practice. The discussion in the book leads to a conclusion that technology education has both an ethical and moral responsibility to support imaginings that sustain people and communities in harmony and for the well being of the broader ecological and social environment.
Consistent with international trends, there is an active pursuit of more engaging science education in the Asia-Pacific region. The aim of this book is to bring together some examples of research being undertaken at a range of levels, from studies of curriculum and assessment tools, to classroom case studies, and investigations into models of teacher professional learning and development. While neither a comprehensive nor definitive representation of the work that is being carried out in the region, the contributions-from China, Hong Kong, Taiwan, Korea, Japan, Singapore, Australia, and New Zealand-give a taste of some of the issues being explored, and the hopes that researchers have of positively influencing the types of science education experienced by school students. The purpose of this book is therefore to share contextual information related to science education in the Asia-Pacific region, as well as offering insights for conducting studies in this region and outlining possible questions for further investigation. In addition, we anticipate that the specific resources and strategies introduced in this book will provide a useful reference for curriculum developers and science educators when they design school science curricula and science both pre-service and in-service teacher education programmes. The first section of the book examines features of science learners and learning, and includes studies investigating the processes associated with science conceptual learning, scientific inquiry, model construction, and students' attitudes towards science. The second section focuses on teachers and teaching. It discusses some more innovative teaching approaches adopted in the region, including the use of group work, inquiry-based instruction, developing scientific literacy, and the use of questions and analogies. The third section reports on initiatives related to assessments and curriculum reform, including initiatives associated with school-based assessment, formative assessment strategies, and teacher support accompanying curriculum reform.
Consistent with international trends, there is an active pursuit of more engaging science education in the Asia-Pacific region. The aim of this book is to bring together some examples of research being undertaken at a range of levels, from studies of curriculum and assessment tools, to classroom case studies, and investigations into models of teacher professional learning and development. While neither a comprehensive nor definitive representation of the work that is being carried out in the region, the contributions-from China, Hong Kong, Taiwan, Korea, Japan, Singapore, Australia, and New Zealand-give a taste of some of the issues being explored, and the hopes that researchers have of positively influencing the types of science education experienced by school students. The purpose of this book is therefore to share contextual information related to science education in the Asia-Pacific region, as well as offering insights for conducting studies in this region and outlining possible questions for further investigation. In addition, we anticipate that the specific resources and strategies introduced in this book will provide a useful reference for curriculum developers and science educators when they design school science curricula and science both pre-service and in-service teacher education programmes. The first section of the book examines features of science learners and learning, and includes studies investigating the processes associated with science conceptual learning, scientific inquiry, model construction, and students' attitudes towards science. The second section focuses on teachers and teaching. It discusses some more innovative teaching approaches adopted in the region, including the use of group work, inquiry-based instruction, developing scientific literacy, and the use of questions and analogies. The third section reports on initiatives related to assessments and curriculum reform, including initiatives associated with school-based assessment, formative assessment strategies, and teacher support accompanying curriculum reform. The Open Access version of this book, available at http://www.taylorfrancis.com/books/e/9781315717678, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.
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.
This volume considers the future of science learning - what is being learned and how it is being learned - in formal and informal contexts for science education. To do this, the book explores major contemporary shifts in the forms of science that could or should be learned in the next 20 years, what forms of learning of that science should occur, and how that learning happens, including from the perspective of learners. In particular, this volume addresses shifts in the forms of science that are researched and taught post-school - emerging sciences, new sciences that are new integrations, "futures science", and increases in the complexity and multidisciplinarity of science, including a multidisciplinarity that embraces ways of knowing beyond science. A central aspect of this in terms of the future of learning science is the urgent need to engage students, including their non-cognitive, affective dimensions, both for an educated citizenry and for a productive response to the ubiquitous concerns about future demand for science-based professionals. Another central issue is the actual impact of ICT on science learning and teaching, including shifts in how students use mobile technology to learn science.
Twenty-five years ago there was increasing optimism in policy, curriculum and research about the contribution that technology education might make to increased technological literacy in schools and the wider population. That optimism continues, although the status of technology as a learning area remains fragile in many places. This edited book is offered as a platform from which to continue discussions about how technology education might progress into the future, and how the potential of technology education to be truly relevant and valued in school learning can be achieved. The book results from a collaboration between leading academics in the field, the wider group of authors having had input into each of the chapters. Through the development of a deep understanding of technology, based on a thoughtful philosophy, pathways are discussed to facilitate student learning opportunities in technology education. Consideration is given to the purpose(s) of technology education and how this plays out in curriculum, pedagogies, and assessment. Key dimensions, including design, critique, students' cultural capital are also explored, as are the role and place of political persuasion, professional organisations, and research that connects with practice. The discussion in the book leads to a conclusion that technology education has both an ethical and moral responsibility to support imaginings that sustain people and communities in harmony and for the well being of the broader ecological and social environment.
Assessment is a fundamental issue in research in science education, in curriculum development and implementation in science education as well as in science teaching and learning. This book takes a broad and deep view of research involving assessment in science education, across contexts and cultures (from whole countries to individual classrooms) and across forms and purposes (from assessment in the service of student learning to policy implications of system wide assessment). It examines the relationships between assessment, measurement and evaluation; explores assessment philosophies and practices in relation to curriculum and scientific literacy/learning; and details the relationships between assessment and science education policy. The third in a series, Valuing Assessment in Science Education has chapters from a range of international scholars from across the globe and staff from Monash University, King's College London and University of Waikato. The two previous books in the series examined research relevant to the re-emergence of values in science education and teaching across the spectrum of science education as well as across cultural contexts through the professional knowledge of science teaching. This third book now moves to examine different aspects of generating understanding about what science is learnt, how it is learnt, and how it is valued. Valuing Assessment in Science Education will appeal to all those with some engagement with and/or use of research in science education, including research students, academics, curriculum development agencies, assessment authorities, and policy makers. It will also be of interest to all classroom science teachers who seek to keep abreast of the latest research and development and thinking in their area of professional concern.
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