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This book is based on presentations at the International Science Education Conference (ISEC) 2014. It showcases a selection of the best papers by researchers and science teachers from the Asia-Pacific region, North America and the United Kingdom. Centered on the theme of “Pushing the boundaries – Investing in our future”, they pursue new ways of helping learners appreciate the diversity and changes in science that result from a globalised world facing complex and diverse environmental and technological issues. The chapters touch on various themes in science education that explore and investigate issues of scientific literacy, societal challenges and affect, and teacher professional development. Its comprehensive themes make it a valuable textbook for graduate students of master’s and Ph.D. programs. It also appeals to pre-service and in-service teachers as a resource on innovative pedagogical practices and creative methods of professional development. With a selection that emphasises the research-practice nexus in education research, it serves as an introductory handbook for teachers to connect with the current issues facing science education.
This edited volume explores key areas of interests in Singapore math and science education including issues on teacher education, pedagogy, curriculum, assessment, teaching practices, applied learning, ecology of learning, talent grooming, culture of science and math, vocational education and STEM. It presents to policymakers and educators a clear picture of the education scene in Singapore and insights into the role of math and science education in helping the country excel beyond international studies such as PISA, the pedagogical and curricula advancements in math and science learning, and the research and practices that give Singaporean students the competitive edge in facing the uncertain and challenging landscape of the future.
This book synthesizes theoretical perspectives, empirical evidence and practical strategies for improving teacher education in chemistry. Many chemistry lessons involve mindless “cookbook” activities where students and teachers follow recipes, memorise formulae and recall facts without understanding how and why knowledge in chemistry works. Capitalising on traditionally disparate areas of research, the book investigates how to make chemistry education more meaningful for both students and teachers. It provides an example of how theory and practice in chemistry education can be bridged. It reflects on the nature of knowledge in chemistry by referring to theoretical perspectives from philosophy of chemistry. It draws on empirical evidence from research on teacher education, and illustrates concrete strategies and resources that can be used by teacher educators. The book describes the design and implementation of an innovative teacher education project to show the impact of an intervention on pre-service teachers. The book shows how, by making use of visual representations and analogies, the project makes some fairly abstract and complex ideas accessible to pre-service teachers.
The fourth industrial revolution, or Industry 4.0, is characterized by the exponential pace of technology developments covering wide-ranging fields such as artificial intelligence, robotics, autonomous vehicles, 3D printing, nanotechnology, biotechnology, materials science, energy storage, and quantum computing. It is anticipated that it will result in a future that is volatile, uncertain, complex, and ambiguous; this has led to a widespread call for the development of 21st-century skills and competencies among the young, particularly in the science field. Fostering Science Teaching and Learning for the Fourth Industrial Revolution and Beyond considers how we prepare prospective science teachers for the fourth industrial revolution; how we create teacher education curricula that will help pre-service science teachers to be sufficiently versatile in the rapidly changing world; and which key perspectives, processes, methods, and tools have especially promising payoffs in the lives of pre-service science teachers. Covering key topics such as virtual reality, teacher preparation, and science classrooms, this premier reference source is ideal for policymakers, administrators, scholars, researchers, academicians, instructors, and students.
This book is a collaborative product of an official project approved by the East-Asian Association for Science Education (EASE), one of the most important professional societies of science education in Asia. This EASE book is compiled with a unique approach. It consists of well-structured four sections: (A)The Historical Development of Science Education in East Asia, (B)The Achievements of Science Education Research in East Asia, (C)Science Teacher Training in East Asia, and (D)Some Challenges to Research in Science Education in East Asia. Its fifteen chapters are co-authored/collaborated by renowned scholars from regions of East Asia. The book successfully integrated and consolidated the research, findings, curricular developments, and science teaching practices that have shaped ongoing educational agenda and student learning outcome in an unprecedented approach. Six Regional Coordinators from Mainland China, Hong Kong, Japan, Korea, and Taiwan worked together with Editors and more than fifty science educators to assure the book project adequately reflects the trends and practices in this region. The six Regional Coordinators are: (1)Prof. Weiping HU, Shaanxi Normal University, (2)Prof. Winnie SO Wing Mui, The Education University of Hong Kong, (3)Prof. Masakata OGAWA, Tokyo University of Science, (4)Prof. Jinwoong SONG, Seoul National University, (5)Prof. Huann-shyang LIN, National Sun Yat-sen University, (6)Prof. Chi-jui LIEN, National Taipei University of Education. This book intends not only to serve as references, but also a complement of existing perspectives from western countries. Insights gained from the integration and consolidation of East-Asian developmental trends and perspectives would allow science educators, teachers, and policy makers make wise decision for future advancements for their own countries/regions. 1. Why We Study the History of Science Education in East Asia: A Comparison of the Emergence of Science Education in China and Japan. 2. The Advent of Science Education for All: A Policy Review across East-Asian Regions. 3. Trend and Development of School Science Education in Taiwan, Hong Kong, and Korea. 4. National/Regional Systems of Research Training in Science Education: The Experiences in Japan and Hong Kong. 5. Science Education Research Trends in East Asian Areas: A Quantitative Analysis in Selected Journals. 6. Current Trends of Science Education in East Asia (1995-2014): With a Focus on Local Academic Associations, Journal Papers, and Key Issues of Science Education in China Mainland, Japan, Korea, and Taiwan. 7. Diversity Dilemmas of Science Education in East Asia. 8. A Comparison of Elementary School Science Textbooks in East Asia. 9. Primary School Science Teacher Training in East-Asia: In the Continuous Reforming for the Quality Assurance. 10. Pre-service Education of High School Science Teachers. 11. Science Education Reform and the Professional Development of Science Teachers in East Asian Regions. 12. Affective Aspects of Science Education in East Asia Regions. 13. Science Learning in Informal Environments in East Asia: Focusing on Science Museums/Centers. 14. Introducing Modern Science and High Technology in Schools. 15. Government Policy in Developing a STEM Curriculum: The Case of the High-Scope Program in Taiwan.
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.
The Springer International Handbook of Educational Development in Asia Pacific breaks new ground with a comprehensive, fine-grained and diverse perspective on research and education development throughout the Asia Pacific region. In 13 sections and 127 chapters, the Handbook delves into a wide spectrum of contemporary topics including educational equity and quality, language education, learning and human development, workplace learning, teacher education and professionalization, higher education organisations, citizenship and moral education, and high performing education systems. The Handbook is grounded in specific Asia Pacific contexts and scholarly traditions, using unique country-specific narratives, for example, Vietnam and Melanesia, and socio-cultural investigations through lenses such as language identity or colonisation, while offering parallel academic discourse and analyses framed by broader policy commentary from around the world.
This book presents innovations in teaching and learning science, novel approaches to science curriculum, cultural and contextual factors in promoting science education and improving the standard and achievement of students in East Asian countries. The authors in this book discuss education reform and science curriculum changes and promotion of science and STEM education, parental roles and involvement in children's education, teacher preparation and professional development and research in science education in the context of international benchmarking tests to measure the knowledge of mathematics and science such as the Trends in Mathematics and Science Study (TIMSS) and achievement in science, mathematics and reading like Programme for International Student Assessment (PISA). Among the high achieving countries, the performance of the students in East Asian countries such as Singapore, Taiwan, Korea, Japan, Hong Kong and China (Shanghai) are notable. This book investigates the reasons why students from East Asian countries consistently claim the top places in each and every cycle of those study. It brings together prominent science educators and researchers from East Asia to share their experience and findings, reflection and vision on emerging trends, pedagogical innovations and research-informed practices in science education in the region. It provides insights into effective educational strategies and development of science education to international readers.
The text explores the concept of innovation, and analyse and compare different dimensions of innovation found in the various case studies; the transfer of innovation and the mechanisms of change; on an innovative online case study database on education innovations that has been designed to be used by education practitioners to support organizational leadership, international collaboration and reflective practice in the Asia Pacific Economic Cooperation (APEC) eEducation Leadership initiative; on a project aimed to support the establishment of communities of practice for education practitioners facilitated through an extendable online database that can be used to contribute and share case studies of their own ICT-supported pedagogical innovations. It discusses roles of the teacher and the anticipated changes to the education profession at a system level, in the coming decade on the basis of emerging changes observed in the case studies, and leadership issues at the school level. The book analyses change mechanisms for different kinds of innovation and how different contextual and cultural factors interact to bring about the changes observed.