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Prompted by the ongoing debate among science educators over ‘nature of science’, and its importance in school and university curricula, this book is a clarion call for a broad re-conceptualizing of nature of science in science education. The authors draw on the ‘family resemblance’ approach popularized by Wittgenstein, defining science as a cognitive-epistemic and social-institutional system whose heterogeneous characteristics and influences should be more thoroughly reflected in science education. They seek wherever possible to clarify their developing thesis with visual tools that illustrate how their ideas can be practically applied in science education. The volume’s holistic re...
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 book takes stock of where we are in science education research, and considers where we ought now to be going. It explores how and whether the research effort in science education has contributed to improvements in the practice of teaching science and the science curriculum. It contains contributions from an international group of science educators. Each chapter explores a specific area of research in science education, considering why this research is worth doing, and its potential for development. Together they look candidly at important general issues such as the impact of research on classroom practice and the development of science education as a progressive field of research. The b...
Teaching Science for Understanding
This volume reaches beyond the controversy surrounding the teaching and learning of evolution in the United States, specifically in regard to the culture, politics, and beliefs found in the Southeast. The editors argue that despite a deep history of conflict in the region surrounding evolution, there is a wealth of evolution research taking place—from biodiversity in species to cultural evolution and human development. In fact, scientists, educators, and researchers from around the United States have found their niche in the South, where biodiversity is high, culture runs deep, and the pace is just a little bit slower.
Education has been considered in all times to be an instrument of social change. This objective cannot be attained without having improved the class room practices. Education is the learning of knowledge, information and skills during the course of life. Teachers may draw on many subjects, including reading, writing, mathematics, science and history. Teachers in specialized professions such as astrophysics, law, or Zoology may teach only a certain subject, usually as professors at institutions of higher learning.
In August 2005, over 500 researchers from the field of science education met at the 5th European Science Education Research Association conference. Two of the main topics at this conference were: the decrease in the number of students interested in school science and concern about the worldwide outcomes of studies on students’ scientific literacy. This volume includes edited versions of 37 outstanding papers presented, including the lectures of the keynote speakers.
Bringing together international research on nature of science (NOS) representations in science textbooks, the unique analyses presented in this volume provides a global perspective on NOS from elementary to college level and discusses the practical implications in various regions across the globe. Contributing authors highlight the similarities and differences in NOS representations and provide recommendations for future science textbooks. This comprehensive analysis is a definitive reference work for the field of science education.
Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe and Israel, Arab States, and Sub-Saharan Africa. The focus of this Handbook is on science education in Arab states and the scholarship that most closely supports this program. The reviews of the research situate what has been accomplished within a given field in an Arab rather than an international context. The purpose therefore is to articulate and exhibit regional networks and trends that produced specific forms of science education. The thrust lies in identifying the roots of research programs and sketching trajectories—focusing the changing façade of problems and solutions within regional contexts. The approach allows readers to review what has been done and accomplished, what is missing and what might be done next.
This edited volume brings closer two contemporary science education research areas: Nature of Science (NOS) and Social Justice (SJ). It starts a dialogue on the characteristics of NOS for SJ with the purpose of advancing the existing discussion and creating new avenues for research. Using a variety of approaches and perspectives, the authors of the different chapters engage in a dialogue on the construct of NOS for SJ, its characteristics, as well as ways of addressing it in science classrooms. Issues addressed are related to why a school science aiming at SJ should address NOS; what NOS-related content, skills and attitudes form the basis when aiming at SJ; and how school science can address NOS for SJ. Through a set of theoretical and empirical chapters, the authors suggest answers, but they also pose new questions on what NOS for SJ can mean, and what issues need to be taken into consideration in future research and practice. Chapter “Nature of Science for Social Justice: Why, What and How?” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com