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Asia is the largest continent in the world. Five out of the top ten high performing economies in the Programme for International Student Assessment (PISA) 2018 are located in Asia. Why do Asian students perform so well in STEM-related subjects? This book answers this by examining the STEM education policies and initiatives in Asian economies, as well as the training programmes undertaken by STEM teachers in Asia. The book is broken into four sections, each accompanied by a passage of commentary that summarizes the key takeaways of the chapters. Section one focuses on STEM policy environments and how various countries have developed policies that promote STEM as an integral part of national economic development. Section two focuses on STEM teacher education in the Philippines and Thailand, while section three focuses on STEM curriculum design, context, and challenges in four Asian economies. The fourth and final section focuses on presenting snapshots of STEM education research efforts in Malaysia, South Korea, and Singapore. Written by Asian academics, this book will provide valuable insights to policy makers, educators, and researchers interested in the topic of STEM education, especially in the Asian context. Chapters 7 and 11 of this book are freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license available at http://www.taylorfrancis.com
Given the importance of student learning in the various types and integration of STEM education, this book provides a landscape of cross-disciplinary STEM learning in Asian primary schools, and a systematic overview of design, practices, and outcomes of STEM learning implementation. Science, Technology, Engineering and Mathematics (STEM) has continued to attract attention worldwide, and there have been calls for the promotion of STEM education in primary schools to nurture students to meet the needs of societies in terms of innovation and technology development. Since STEM is complex in nature and is related to various disciplines, the effort of a single discipline may not be as effective as cross-disciplinary efforts. This edited volume, involving an Asian team of authors, examines how cross-disciplinary STEM learning can be designed for students to achieve viable outcomes, and what opportunities and challenges have been offered to the next generation to equip them with the necessary skills, knowledge, and ways of thinking, as well as attitudes and values for lifelong learning. A resourceful text for students, researchers, and practitioners interested in the rich development of STEM education and practical methods for a variety of learning approaches from elementary to secondary education has been provided.
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.
This book offers various perspectives on the complex and crosscutting concepts of the science, technology, engineering, and mathematics (STEM) disciplines in the classroom context. Presenting empirical studies, it reveals how researchers in the Asia-Pacific Region planned and implemented STEM education in the classroom. Further, it discusses the assessment of STEM learning to clarify what important elements should be included and how researchers and educators frame and design assessment tools. The book consists of four parts: potential and trends in STEM education; teachers’ practical knowledge for STEM teaching; STEM teaching practices; and assessment of STEM learning. Providing evidence on developing curriculums, implementing instructional practices and educating classroom teachers, it is intended for readers wanting to explore STEM education from multiple perspectives.
Building a skilled and diverse science, technology, engineering, and mathematics (STEM) workforce is crucial for economic development, cross-border trade, and social inclusion in South Asia. However, underrepresentation of girls and women in STEM education and careers remains a persistent issue. What kinds of macro and micro socioeconomic interventions are needed to increase girls' and women's access to and participation in STEM education and careers in South Asia? This book compares trends in South Asia with global trends to examine how access to and choices of STEM fields affect girls' enrollment in upper secondary education, technical and vocational education and training, and higher education in the region as well as their selection of careers. Based on the analysis, it offers recommendations to policy makers and practitioners to improve inclusion. The following are among the findings: (1) The five key opportunities to foster inclusion and enrollment in STEM education--and staunch the 'leaky pipeline'--are at the upper primary, lower and upper secondary, and tertiary education levels, and during the early career years; (2) A strong pathway from STEM education to career depends on an integrated, systematic approach that motivates students to pursue STEM fields, builds STEM skills, and removes barriers to diversity; (3) With the increasing migration of workers between countries in South Asia, preparing a critical mass of semiskilled and skilled STEM migrant workers has cross-border value, especially for workers migrating from smaller to larger economies. New ways of defining STEM occupations are required to help develop and sustain female interest in STEM education and careers. Potential strategies that governments can pursue include raising awareness and building knowledge and skills in STEM outside the formal academic environment--such as in after-school programs, science fairs and competitions, and summer camps--and developing and systematically disseminating standardized resources. Inclusion and diversity must be championed by governments, the private sector, and other stakeholders who stand to benefit from more diverse workforces. Though women themselves would likely be credible champions, in South Asia they are often constrained by a range of factors. This report addresses some of those obstacles.
This book offers various perspectives on the complex and crosscutting concepts of the science, technology, engineering, and mathematics (STEM) disciplines in the classroom context. Presenting empirical studies, it reveals how researchers in the Asia-Pacific Region planned and implemented STEM education in the classroom. Further, it discusses the assessment of STEM learning to clarify what important elements should be included and how researchers and educators frame and design assessment tools. The book consists of four parts: potential and trends in STEM education; teachers' practical knowledge for STEM teaching; STEM teaching practices; and assessment of STEM learning. Providing evidence on developing curriculums, implementing instructional practices and educating classroom teachers, it is intended for readers wanting to explore STEM education from multiple perspectives.
"Given the importance of student learning in the various types and integration of STEM education, this book provides a landscape of cross-disciplinary STEM learning in Asian primary schools, and a systematic overview of design, practices and outcomes of STEM learning implementation. Science, Technology, Engineering and Mathematics (STEM) has continued to attract attention worldwide, and there have been calls for the promotion of STEM education in primary schools to nurture students to meet the needs of societies in terms of innovation and technology development. Since STEM is complex in nature and is related to various disciplines, the effort of a single discipline may not be as effective as cross-disciplinary efforts. This edited volume, involving an Asian team of authors, examines how cross-disciplinary STEM learning can be designed for students to achieve viable outcomes, and what opportunities and challenges have been offered to the next generation to equip them with the necessary skills, knowledge, ways of thinking, as well as attitudes and values for lifelong learning. A resourceful text for students, researchers and practitioners interested in the rich development of STEM education and practical methods for a variety of learning approaches from elementary to secondary education"--
The Handbook of Research on STEM Education represents a groundbreaking and comprehensive synthesis of research and presentation of policy within the realm of science, technology, engineering, and mathematics (STEM) education. What distinguishes this Handbook from others is the nature of integration of the disciplines that is the founding premise for the work – all chapters in this book speak directly to the integration of STEM, rather than discussion of research within the individual content areas. The Handbook of Research on STEM Education explores the most pressing areas of STEM within an international context. Divided into six sections, the authors cover topics including: the nature of STEM, STEM learning, STEM pedagogy, curriculum and assessment, critical issues in STEM, STEM teacher education, and STEM policy and reform. The Handbook utilizes the lens of equity and access by focusing on STEM literacy, early childhood STEM, learners with disabilities, informal STEM, socio-scientific issues, race-related factors, gender equity, cultural-relevancy, and parental involvement. Additionally, discussion of STEM education policy in a variety of countries is included, as well as a focus on engaging business/industry and teachers in advocacy for STEM education. The Handbook’s 37 chapters provide a deep and meaningful landscape of the implementation of STEM over the past two decades. As such, the findings that are presented within provide the reader with clear directions for future research into effective practice and supports for integrated STEM, which are grounded in the literature to date.
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 handbook presents a spectrum of interpretations of STEM education in the Southeast Asian region - shared throughout our three-part webinar series titled, "Teaching STEM in Southeast Asia"."-- Page ii.