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Responsive Teaching in Science and Mathematics
Answering calls in recent reform documents to shape instruction in response to students’ ideas while integrating key concepts and scientific and/or mathematical practices, this text presents the concept of responsive teaching, synthesizes existing research, and examines implications for both research and teaching. Case studies across the curriculum from elementary school through adult education illustrate the variety of forms this approach to instruction and learning can take, what is common among them, and how teachers and students experience it. The cases include intellectual products of students’ work in responsive classrooms and address assessment methods and issues. Many of the cases are supplemented with online resources (http://www.studentsthinking.org/rtsm) including classroom video and extensive transcripts, providing readers with additional opportunities to immerse themselves in responsive classrooms and to see for themselves what these environments look and feel like.
The Extended Mind
A bold new book reveals how we can tap the intelligence that exists beyond our brains--in our bodies, our surroundings, and our relationships Use your head. That's what we tell ourselves when facing a tricky problem or a difficult project. But a growing body of research indicates that we've got it exactly backwards. What we need to do, says acclaimed science writer Annie Murphy Paul, is think outside the brain. A host of "extra-neural" resources--the feelings and movements of our bodies, the physical spaces in which we learn and work, and the minds of those around us-- can help us focus more intently, comprehend more deeply, and create more imaginatively. The Extended Mind outlines the resea...
Teaching Scientific Inquiry
What are scientific inquiry practices like today? How should schools approach inquiry in science education? Teaching Science Inquiry presents the scholarly papers and practical conversations that emerged from the exchanges at a two-day conference of distinctive North American ‘science studies’ and ‘learning science’scholars.
"Show Me what You Know"
Just like representations in everyday life, this book shows that represenations are ubiquitous to science, technology, engineering, and mathematics, the STEM disciplines. "Show Me What You Know" showcases research on representations across a range of STEM disciplines and ages, from children as young as 2 years of age to professional mathematicians. The text highlights the importance of paying close attention to learners' interpretations and productions of different representations as a source of evidence for what learners understand, and another way for learners to "show us what they know'. The text is organized around four themes: appropriation of representations, making meaning, highlighting, and representations as scaffold and supports.
Physics Teacher Education
This book focuses on some important aspects of Physics Education: the role of metaphors in Physics teaching and learning, the connections between Physics and Mathematics, the interaction of young children with Physics at the primary level, and recent developments in teacher education in the USA. Contributors present their research related to: • Preparing teachers for TPACK (technological, pedagogical, and content knowledge) and laboratory work. • Developing and evaluating teacher PCK (pedagogical content knowledge) in Quantum Mechanics. • In-service Physics teacher education for early childhood and primary levels. • Pre-service Physics teacher education at all levels. • In-service ...
Embracing Diversity in the Learning Sciences
More than a decade has passed since the First International Conference of the Learning Sciences (ICLS) was held at Northwestern University in 1991. The conference has now become an established place for researchers to gather. The 2004 meeting is the first under the official sponsorship of the International Society of the Learning Sciences (ISLS). The theme of this conference is "Embracing Diversity in the Learning Sciences." As a field, the learning sciences have always drawn from a diverse set of disciplines to study learning in an array of settings. Psychology, cognitive science, anthropology, and artificial intelligence have all contributed to the development of methodologies to study lea...
Transfer of Learning from a Modern Multidisciplinary Perspective
The chapters contained in the book present a new and exciting set of conceptual tools that will not only allow us to think about transfer in more productive ways, but will also enable the development of educational and measurement tools that will greatly facilitate our ability to educate the children in our schools. This volume is eclectic in bringing together researchers from psychology and science education (especially physics)—who would not normally present their ideas under the same forum—to share their views and perspectives on transfer. What we believe has emerged is a fresh look at transfer issues from a multidisciplinary perspective.
Pedagogical Content Knowledge in STEM
This volume represents both recent research in pedagogical content knowledge (PCK) in science, technology, engineering and math (STEM), as well as emerging innovations in how PCK is applied in practice. The notion of “research to practice” is critical to validating how effectively PCK works within the clinic and how it can be used to improve STEM learning. As the need for more effective educational approaches in STEM grows, the importance of developing, identifying, and validating effective practices and practitioner competencies are needed. This book covers a wide range of topics in PCK in different school levels (middle school, college teacher training, teacher professional developm...
Research on Physics Education
Physics Education research is a young field with a strong tradition in many countries. However, it has only recently received full recognition of its specificity and relevance for the growth and improvement of the culture of Physics in contemporary Society for different levels and populations. This may be due on one side to the fact that teaching, therefore education, is part of the job of university researchers and it has often been implicitly assumed that the competences required for good research activity also guarantee good teaching practice. On the other side, and perhaps more important, is the fact that the problems to be afforded in doing research in education are complex problems tha...
Core Practices in Teacher Education
An exploration of teacher education programs around the world finds common focus in the use of core practices to better prepare teachers for the classroom
