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This book presents an overview of the history and philosophy of science, explores its methodological and educational implications, and develops innovative teaching strategies, based on actual classroom practice, that emphasize ‘science-in-the-making'.
Pedagogy is at the heart of teaching and learning. Preparing young people to become lifelong learners with a deep knowledge of subject matter and a broad set of social skills requires a better understanding of how pedagogy influences learning. Focusing on pedagogies shifts the perception of ...
Science teaching has recently evolved as a blend of conventional methods and modern aids owing to the changing needs and techniques of education. This updated Third Edition aims to strike this balance between modern teaching methods and time-tested theories. All the existing chapters are suitably updated and new chapters on theories of learning, teaching models, and statistics are included in the text. Checklists are provided to help teachers handpick appropriate material from the vast available resources. The introductory chapter on statistics should help them interpret and analyze the test scores of their students. THIS NEW EDITION FEATURES • Four new chapters—Statistics for Science Teacher, Theories of Learning, Models of Teaching, and Constructivism in Science Education. • Updated e-learning materials and website addresses relevant to science teaching and teachers. • Completely revised chapters and elaborate coverage of all aspects of modern teaching. This edition of Innovative Science Teaching is designed for the undergraduate and postgraduate students of education specializing in science teaching. It can also be used as reference by physical science teachers and teacher-trainees.
This book, an inaugural publication from the Australian Teacher Education Association (ATEA), Teacher Education: Innovation, Intervention and Impact is both a product of, and seeks to contribute to, the changing global and political times in teacher education research. This book marks an historically significant shift in the collective work and outreach of the Australian Teacher Education Association (ATEA) as it endeavours to become an even more active contributor to a research-rich foundation for initial teacher education and to a research-informed teaching profession. The book showcases teacher education research and scholarship from a wide range of institutional collaborations across Australia. Studies highlight the multiple ways in which teacher education researchers are engaging with students, teachers, schools and communities to best prepare future teachers. It informs both teacher education policy and practice and is ‘a must read’ for those engaged in the education community. Above all it marks a shift for teacher educators to build a research rich teaching profession.
Measuring innovation in education and understanding how it works is essential to improve the quality of the education sector. Monitoring systematically how pedagogical practices evolve would considerably increase the international education knowledge base. We need to examine whether, and how ...
This unique collection of chapters takes the reader on a tour to explore innovative preservice and inservice teacher education practices from many regions of the United States, Canada and the world. Each of the chapters-organized under four headings-offers an authentic, documentary account of successful initiatives that break the traditional mold of teacher education.
How teachers view the nature of scientific knowledge is crucial to their understanding of science content and how it can be taught. This book presents an overview of the dynamics of scientific progress and its relationship to the history and philosophy of science, and then explores their methodological and educational implications and develops innovative strategies based on actual classroom practice for teaching topics such the nature of science, conceptual change, constructivism, qualitative-quantitative research, and the role of controversies, presuppositions, speculations, hypotheses, and predictions. Field-tested in science education courses, this book is designed to involve readers in critically thinking about the history and philosophy of science and to engage science educators in learning how to progressively introduce various aspects of ‘science-in-the-making’ in their classrooms, to promote discussions highlighting controversial historical episodes included in the science curriculum, and to expose their students to the controversies and encourage them to support, defend or critique the different interpretations. Innovating Science Teacher Education offers guidelines to go beyond traditional textbooks, curricula, and teaching methods and innovate with respect to science teacher education and classroom teaching.
Educators and those who prepare teachers are facing increased scrutiny on their practice that include pressures to demonstrate their effectiveness, meet the needs of changing demographics and students, and adapt to ever-changing learning environments. Thus, there is a need for innovative pedagogies and adoption of best practices to effectively serve the needs of digital learners. The Handbook of Research on Innovative Pedagogies and Best Practices in Teacher Education is an essential research book that takes an in-depth look at the methods by which educators are prepared to address shifting demographics and technologies in the classroom and provides strategies for focusing their curricula on diverse learning types. It takes a look at the use of innovative pedagogies and effective learning spaces in teacher education programs and the decisions behind them to enhance more inquiry learning, STEM initiatives, and prove more kinds of exploratory learning for students. Covering topics such as higher education, virtual reality, and inclusive education, this book is ideally designed for teachers, administrators, academicians, instructors, and researchers.
This groundbreaking handbook offers a contemporary and thorough review of research relating directly to the preparation, induction, and career long professional learning of K–12 science teachers. Through critical and concise chapters, this volume provides essential insights into science teacher education that range from their learning as individuals to the programs that cultivate their knowledge and practices. Each chapter is a current review of research that depicts the area, and then points to empirically based conclusions or suggestions for science teacher educators or educational researchers. Issues associated with equity are embedded within each chapter. Drawing on the work of over one hundred contributors from across the globe, this handbook has 35 chapters that cover established, emergent, diverse, and pioneering areas of research, including: Research methods and methodologies in science teacher education, including discussions of the purpose of science teacher education research and equitable perspectives; Formal and informal teacher education programs that span from early childhood educators to the complexity of preparation, to the role of informal settings such as museums; Continuous professional learning of science teachers that supports building cultural responsiveness and teacher leadership; Core topics in science teacher education that focus on teacher knowledge, educative curricula, and working with all students; and Emerging areas in science teacher education such as STEM education, global education, and identity development. This comprehensive, in-depth text will be central to the work of science teacher educators, researchers in the field of science education, and all those who work closely with science teachers.
This book examines educational semiotics and the representation of knowledge in school science. It discusses the strategic integration of animation in science education. It explores how learning through the creation of science animations takes place, as well as how animation can be used in assessing student’s science learning. Science education animations are ubiquitous in a variety of different online sites, including perhaps the most popularly accessed YouTube site, and are also routinely included as digital augmentations to science textbooks. They are popular with students and teachers and are a prominent feature of contemporary science teaching. The proliferation of various kinds of science animations and the ready accessibility of sophisticated resources for creating them have emphasized the importance of research into various areas: the nature of the semiotic construction of knowledge in the animation design, the development of critical interpretation of available animations, the strategic selection and use of animations to optimize student learning, student creation of science animations, and using animation in assessing student science learning. This book brings together new developments in these research agendas to further multidisciplinary perspectives on research to enhance the design and pedagogic use of animation in school science education. Chapter 1 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.