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What should citizens know, value, and be able to do in preparation for life and work in the 21st century? In The Teaching of Science: 21st-Century Perspectives, renowned educator Rodger Bybee provides the perfect opportunity for science teachers, administrators, curriculum developers, and science teacher educators to reflect on this question. He encourages readers to think about why they teach science and what is important to teach.
This book delivers what the title promises: perspectives on leadership and science education, presented in the form of a simulating seminar. Authors Rodger Bybee and Stephen Pruitt are two of science educator's most prominent thought leaders. Writing in a conversational style, they encourage you to ponder central concerns of the science education community in general and science teachers in particular. As they explain, "This book is our response to those ready to face the challenges and provide leadership for education reform." The book starts with an introduction to perspectives, challenges, standards, and leadership--themes that weave throughout the book. After a brief history of science education, Bybee and Pruitt cover some of the current issues and topics in education such as state standards and district leadership, curriculum programs, professional development, and assessment and accountability. Each Chapter also includes an essay from one of the authors covering his personal perspective on the topic at hand. Perspectives on Science education is certain to launch professional conversations that will contribute to a deeper understanding of science education and strengthen your desire and ability to lead. As Bybee and Pruitt say in their last Chapter, "The science education community needs your leadership.
Co-Published with the Association For Science Teacher Education. Reflecting recent policy and standards initiatives, emerging research agendas, and key innovations, this volume provides a contemporary overview of important developments and issues that have that have in recent years shaped elementary science education pre-service courses and professional development, and practices that are shaping future directions in the field. Contributors from several countries who are actively engaged in research and design in elementary science education address: *Conceptual issues which impinge on contemporary science teacher education; *Intersections of content, pedagogy, and practice; and *Professional development as a contextualized practice. Elementary Science Teacher Education: International Perspectives on Contemporary Issues and Practice offers a clear picture of the current state of the field and directions for the future--to the benefit of elementary science teacher educators, aspiring teacher educators, school policy makers, other professionals involved in science education and, ultimately, the millions of elementary school children who will gain from improved practice.
This book explores how science learning can be more relevant and interesting for students and teachers by using a contextualized approach to science education. The contributors explore the contextualization of science education from multiple angles, such as teacher education, curriculum design, assessment and educational policy, and from multiple national perspectives. The aim of this exploration is to provide and inspire new practical approaches to bring science education closer to the lives of students to accelerate progress towards global scientific literacy. The book presents real life examples of how to make science relevant for children and adolescents of diverse ethnic and language backgrounds, socioeconomic status and nationalities, providing tools and guidance for teacher educators and researchers to improve the contextualization and cultural relevance of their practice. The book includes rigorous studies demonstrating that the contextualization of science learning environments is essential for student engagement in learning science and practitioners' reflections on how to apply this knowledge in the classroom and at national scale. This approach makes this book valuable for researchers and professors of science education and international education interested in designing teacher education courses that prepare future teachers to contextualize their teaching and in adding a critical dimension to their research agendas.
This text combines theory, practice and personal perspectives through the use of case studies and commentaries by senior scholars in the field of science education.
A key new textbook which is part of a new series co-published with The Open University Written to be used in conjunction with its counterpart in the Teaching in the Secondary School series. Between them they address both the theoretical and practical issues in science teaching Examples of good practice are underpinned by reference to research and other literature
For decades, politicians, businessmen and other leaders have been concerned with the quality of education, including early childhood education, in the United States. While more than 50% of the children between the ages of three and five are enrolled in preschool and kindergarten programs in the United States, no state, federal, or national standards exist for science or technology education in preschool or kindergarten programs. Knowledge about science and technology is an important requirement for all in contemporary society. An increasing number of professions require the use of scientific concepts and technological skills and society as a whole depends on scientific knowledge. Scientific and technological knowledge should be a part of every individual’s education. There are many ways to enhance young children’s scientific thinking and problem-solving skills as well as their technological abilities. The purpose of this volume is to present a critical analysis of reviews of research on science and technology education in early childhood education. The first part of the volume includes contributions by leading scholars in science, while the second part includes contributions by leading scholars in technology.
This readable and informative survey of key ideas about students’ thinking in science builds a bridge between theory and practice by offering clear accounts from research, and showing how they relate to actual examples of students talking about widely taught science topics. Focused on secondary students and drawing on perspectives found in the international research literature, the goal is not to offer a comprehensive account of the vast literature, but rather to provide an overview of the current state of the field suitable for those who need an understanding of core thinking about learners’ ideas in science, including science education students in teacher preparation and higher degree programs, and classroom teachers, especially those working with middle school, high school, or college level students. Such understanding can inform and enrich science teaching in ways which are more satisfying for teachers, less confusing and frustrating for learners, and so ultimately can lead to both greater scientific literacy and more positive attitudes to science.
This volume uniquely links educational theories and the practice of GIScience in higher education contexts to guide classroom practice, present effective practical implementations from peers, and provide resources and strategies for effective teaching methods. The book offers a comprehensive exploration of GIScience education, including current trends and future educational needs in GIScience, and will act as a resource to prepare learners for a world that demands more intensive investment in present-day education and technological literacy. Additionally, the indirect benefit of merging the fragmented literature on GIScience literacy will provide a basis to examine common techniques and enable a new wave of research more rooted in learning theories. In ten chapters, the book is designed to attract an audience from geographic information systems science, geomatics, spatial information science, cartography, information technology, and educational technology as focus disciplines.
In the spirit of encouraging international dialogue between researchers and practitioners, often working within isolated traditions, this book discusses perspectives on science education for the gifted informed by up-to-date research findings from a number of related fields. The book reviews philosophy, culture and programmes in science education for the gifted in diverse national contexts, and includes scholarly reviews of significant perspectives and up-to-date research methods and findings. The book is written in a straightforward style for students studying international perspective modules on undergraduate, but especially masters and doctoral degrees in Science Education and Gifted Education. Gifted education has come to be regarded as a key national programme in many countries, and gifted education in science disciplines is now of major importance to economic and technological development. Despite these national initiatives and developments, there are very few discussions on gifted education in science from international perspectives. This will be a valued addition to the scholarship in this emergent field.