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Through country case studies centred around Sub-Saharan Africa; this book provides critical insights into why science and technology should be popularised; what and whose science and technology systems should be introduced and promoted; and how science and technology should be implemented and practised.
Education in science, technology, engineering and mathematics (STEM) is crucial for taking advantage of the prospects of new scientific discoveries initiating or promoting technological changes, and managing opportunities and risks associated with innovations. This book explores the emerging perspectives and methodologies of STEM education and its relationship to the cultural understanding of science and technology in an international context. The authors provide a unique perspective on the subject, presenting materials and experiences from non-European industrialized as well as industrializing countries, including China, Japan, South Korea, India, Egypt, Brazil and the USA. The chapters offer a wide scope of interpretations and comparative reviews of STEM education by including narrative elements about cultural developments, considering the influence of culture and social perceptions on technological and social change, and applying innovative tools of qualitative social research. The book represents a comprehensive and multidisciplinary review of the current status and future challenges facing STEM education across the world, including issues such as globalization, interdependencies of norms and values, effects on equity and social justice as well as resilience. Overall the volume provides valuable insights for a broad and comprehensive international comparison of STEM philosophies, approaches and experiences.
China has made remarkable and rapid progress in the area of science communication, both in theory and practice. This book critically examines all aspects of science communication practices in China. Dealing with major turning points since the introduction of the ‘Science and Technology Popularization Law’ and the ‘Outline of the National Scheme for Scientific Literacy’, the book tells a success story by scrutinizing structural changes in science communication policies, education system, construction and efficacious utilisation of science popularisation facilities, and creative use of a mix of traditional and modern channels of communication. The book also gives an in-depth analysis of the monitoring and evaluation mechanism, which constitutes the backbone of the national science communication project. The historical roots of science communication in China include shifts in methodologies, policy instruments, effectual approaches and resultant practices since the days of initial efforts to popularise modern scientific ideas. However, the primary focus of the book remains on the initiatives launched at the turn of the present century. Without losing sight of the national dimensions, each chapter of the book draws from provincial as well as grassroots level experiences. Quantitative and qualitative methods have been used to analyse strengths, weaknesses, hurdles and the efficacy of corrective measures. This book offers a remarkable insight to anyone who is interested in probing the causal relationship between science communication and China’s transformation into a modern society. The primary objective of the book is to analyse the nature of ‘science communication with Chinese characteristics’ and the specificity of the socio-cultural environment in which Science and Technology is located. Though the book is of particular interest to scholars, researchers, students and practitioners of science communication, the narrative style makes it accessible to the general reader who is interested in science-society relationship.
This book constitutes the refereed proceedings of the European Conference on Information Literacy, ECIL 2013, held in Istanbul Turkey, in October 2013. The 73 revised full papers presented together with two keynotes, 9 invited papers and four doctoral papers were carefully reviewed and selected from 236 submissions. The papers are organized in topical sections on overview and research; policies and strategies; theoretical framework; related concepts; citizenship and digital divide; disadvantaged groups; information literacy for the workplace and daily life; information literacy in Europe; different approaches to information literacy; teaching and learning information literacy; information literacy instruction; assessment of information literacy; information literacy and K-12; information literacy and higher education; information literacy skills of LIS students; librarians, libraries and ethics.
This book aims to be a reference for researchers studying the promotion of scientific literacy in China, as well as a guide for those interested in promoting scientific awareness. It covers advances in science and technology, communication and popularization practice, and research (STCP) both in China and abroad. Theoretical issues are discussed, and important problems in promoting scientific and technological awareness are identified (e.g.: basic principles, structures, channels of communication and current needs) This bookprovides a summary of the advances in STCP in China in recent years (especially after the issuing of the “National Scientific Literacy Outline”) including STCP resource and capacity building, science popularization policies, practitioner development, infrastructure construction, and the development of the science popularization industry as a whole. At the same time, this book also reviews thedesign, organization, monitoring and evaluation of science and technology communication and popularization programs. It also highlights current STCP trends and developments in China and calls for a greater emphasis to be placed on research into promoting scientific literacy. It is hoped that this book will be useful to readers both in China and abroad by familiarizing them with the history and theory of STCP as well as its development over time. The 1st chapter briefly reviews the history of STCP. The 2nd through 5th chapters discuss the conceptual framework, basic structure, methods of communication, and current STCP needs. The 6th chapter introduces the principle content of programs aimed at improving Chinese citizens’ scientific literacy, while the 7th and 8th chapters analyze the resources, capacities and conditions that have been developed for STCP in China. The 9th chapter investigates the organization, monitoring and evaluation of science popularization practices, and the final chapter summarizes important STCP topics and trends in contemporary China.
Science and Technology have occupied almost all spheres of human life and living. The wonderful achievements of science and technology, have glorified the modern world and transformed the civilization into a scientific and technological civilization. Considering the importance of science and technology, they have been incorporated in every stage of education.
This is an open access book. 2022 2nd International Conference on Education, Information Management and Service Science (EIMSS 2022)was held on July 22–24, 2022 in Changsha, China. EIMSS 2022 is to bring together innovative academics and industrial experts in the field of Education, Information Management and Service Science to a common forum. The primary goal of the conference is to promote research and developmental activities in Education, Information Management and Service Science and another goal is to promote scientific information interchange between researchers, developers, engineers, students, and practitioners working all around the world. The conference will be held every year to make it an ideal platform for people to share views and experiences in Education, Information Management and Service Science and related areas.
Science Education and Information Transfer reviews developments in the areas of science education and information transfer. Topics covered include the use of games in science and technology education, transfer of information using readily available technology, and networking. The concepts of global learning and distance learning are also discussed, along with the use of video techniques and computer technology to transfer information. This volume is comprised of 10 chapters and begins with an overview of the information society, the usability of information, and the efficiency of information transfer. The discussion then turns to the use of games to teach science and technology; the most readily available technology for transferring information from teachers to students; and networking as a means to transfer information. The following chapters explore the concept and practice of global learning in the perspective of dissemination of scientific and technological knowledge in response to human needs; the use of microcomputers in the teaching of science; and some of the features of distance learning. The final chapter is devoted to teaching information technology in the classroom. This monograph will be of interest to planners, practitioners, researchers, and other professionals in the field of science education and information technology.
This book brings together authors from around the world to discuss the Standards for Technological and Engineering Literacy: The Role of Technology and Engineering in STEM Education (STEL) released in July 2020 by the International Technology and Engineering Educators Association (ITEEA). The various chapters examine and elaborate on how educators must understand the structure of the standards used and their alignment with educational programs at specific levels and contexts, both in the context of the USA, and internationally. It also showcases case studies analyzing the use of standards in their various contexts from a number of countries which have either adapted STEL, or which have national Standards in Technology Education. The STEL represents a major update to the content standards that has guided the field of technology education (and, later, technology and engineering education) in the USA since 2000. In contrast to previous standards, STEL presents a substantial reduction in the number of standards and associated benchmarks, and the benchmarks have been operationalized to identify the key knowledge, skills, and dispositions associated with each standard. It also emphasizes a focus on core standards that should allow for deeper levels of understanding and engagement on the part of students, who in comprehensive educational programs will continue to revisit these core standards in increasingly sophisticated ways as they progress from Pre-K through Grade 12.
Museums of all sorts and science centres offer excellent opportunities in popularising science and technology to achieve scientific and technological literacy. Science and technology educators and teachers will particularly find this book useful in determining how they could use those facilities effectively in making teaching science and technology enjoyable and contextual. The museum curators and science centres on the other hand will be able to use the book to assist teachers in their efforts to bring relevance and fun in the learning of these subjects.