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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.
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.
Students of today, especially at the school level, perceive science as a collection of facts to be memorized, whereas, in reality, it is constantly changing as new information accumulates and new techniques develop every day. The objective of teaching is not restricted to imparting scientific information to students, but also to help them apply these principles in their daily lives. This comprehensive book, written in an easy-to-understand language, covers the entire syllabus of teaching of Biological Sciences in particular and Science Teaching in general. In so doing, it takes into account the needs of teacher-trainees and in-service teachers. Organized into 20 chapters, the book discusses in detail the many facets and aspects of Biology/Science Teaching. The text introduces modern approaches to teaching, with the aim of improving student learning throughout their course. It emphasizes the need for pedagogical analysis vis-à-vis subject teaching, constructive approach, laboratory work, Continuous and Comprehensive Evaluation (CCE). In addition, the text highlights the difference between microteaching and simulated teaching. It also shows how e-learning and co-curricular activities can be successfully integrated in biological sciences teaching. NEW TO THIS EDITION Inclusion of one chapter on ‘Concept Mapping in Biology Teaching’. This chapter advocates the popularized constructivist approach of teaching-learning process. Besides, some figures, tables and flow charts are also added to make the book more useful to the readers. KEY FEATURES : • Analyses Constructivism versus Behaviourism. • Includes self-explanatory model lesson plan. • Discusses Information and Communication Technology (ICT) in the context of Biology/Science teaching-learning. • Suggests how apparatus and devices can be secured and cultured, and used in classroom demonstrations and student projects. Primarily intended as a text for students of B.Ed. pursuing course on Teaching of Biological Sciences/Life Sciences, the book should prove equally useful for B.Ed. students following courses on Teaching of Physical Sciences. In addition, diploma students of Elementary Teacher Education (ETE) having a paper on Teaching of EVS (General Science), and M.Ed. and M.A. (Education) students with an optional/elective paper on Science Education would find the book extremely useful.
Comprehensive and authoritative, this Handbook provides a nuanced description and analysis of educational systems, practices, and policies in Asian countries and explains and interprets these practices from cultural, social, historical, and economic perspectives. Using a culture-based framework, the volume is organized in five sections, each devoted to educational practices in one civilization in Asia: Sinic, Japanese, Islamic, Buddhist, and Hindu. Culture and culture identities essentially are civilization identities; the major differences among civilizations are rooted in their different cultures. This framework offers a novel approach to capturing the essence of the diverse educational systems and practices in Asia. Uniquely combining description and interpretation of educational practices in Asia, this Handbook is a must-have resource for education researchers and graduate students in international and comparative education, globalization and education, multicultural education, sociocultural foundations of education, and Asian studies, and for educational administrators and education policy makers.
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.