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This vintage book contains a fascinating book on scientific theory and development, written by sir Arthur Eddington. It contains a discussion of the philosophical outlook of modern science, a summary of then-contemporary knowledge, and a number of fascinating and insightful lectures on the various scientific topics. The chapters of this book include: 'Science and Experience', 'Dramatis Personae', 'The End of the World', 'The Decline of Determinism', 'Indeterminacy and Quantum Theory', 'Probability', 'The Constitution of the Stars', 'Subatomic Energy', 'Cosmic Clouds and Nebulae', and more. We are republishing this vintage text now in an affordable, modern edition - complete with a specially commissioned new biography of the author.
This book contains lectures given by Sir Arthur Eddington in 1934 on advances in the physical sciences and scientific thought.
Training for and pursuing a career in science can be treacherous for women; many more begin than ultimately complete at every stage. Characterizing this as a pipeline problem, however, leads to a focus on individual women instead of structural conditions. The goal of the book is to offer an alternative model that better articulates the ideas of agency, constraint, and variability along the path to scientific careers for women. The chapters in this volume apply the metaphor of the road to a variety of fields and moments that are characterized as exits, pathways, and potholes. The scholars featured in this volume engaged purposefully in translation of sociological scholarship on gender, work, and organizations. They focus on the themes that emerge from their scholarship that add to or build on our existing knowledge of scientific work, while identifying tools as well as challenges to diversifying science. This book contains a multitude of insights about navigating the road while training for and building a career in science. Collectively, the chapters exemplify the utility of this approach, provide useful tools, and suggest areas of exploration for those aiming to broaden the participation of women and minorities. Although this book focuses on gendered constraints, we are attentive to fact that gender intersects with other identities, such as race/ethnicity and nativity, both of which influence participation in science. Several chapters in the volume speak clearly to the experience of underrepresented minorities in science and others consider the circumstances and integration of non-U.S. born scientists, referred to in this volume as international scientists. Disaggregating gender deepens our understanding and illustrates how identity shapes the contours of the scientific road.
To ensure they're meeting early learning guidelines for science, preschool educators need fun, age-appropriate, and research-based ways to teach young children about scientific concepts. That's just what they'll get with this hands-on guidebook. The basis for the PBS KIDS show Sid the Science Kid, this innovative teaching resource helps children ages 3 - 5 investigate their everyday world and develop the basics of scienfific thinking, skills they'll apply across subject areas when they enter school. A fun and engaging way to introduce science to young children, PrePS is a must-have because it: is based on the domain-specific approach to cognitive development; provides age-appropriate introduction to key science practices; makes the most of children's natural curiosity; encourages collaboration between teachers and children; enhances any curriculum; and taps teachers' creativity. This reader-friendly guide gives educators the guidance they need to work PrePS into their existing program; sample schedules designed for the preschool classroom; and detailed sample activites they can do right away or use as templates for their own creative lessons. And with the book's assessment guidelines, teachers will know PrePS is having a measurable effect on the classroom environment and student learning.
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.
This book is based on a series of Pathways articles that illustrate effective instructional methods to help students gain conceptual understanding in ecology. It presents a philosophy of scientific teaching based on pedagogical principles designed to improve learning.
“I thoroughly enjoyed reading this book as it has taken me on a journey through time, across the globe and through multiple disciplines. Indeed, we need to be thinking about these concepts and applying them every day to do our jobs better.” Farah Magrabi, Macquarie University, Australia “The reader will find intriguing not only the title but also the content of the book. I’m also pleased that public health, and even more specifically epidemiology has an important place in this ambitious discussion.” Elena Andresen, Oregon Health & Science University, USA “This book is very well written and addresses an important topic. It presents many reasons why basic scientists/researchers should establish collaborations and access information outside traditional means and not limit thinking but rather expand such and perhaps develop more innovative and translational research ventures that will advance science and not move it laterally.” Gerald Pepe, Eastern Virginia Medical School, USA “This book gathers logically and presents interestingly (with many examples) the qualities and attitudes a researcher must possess in order to become successful. On the long run, the deep and carefully reexamined research will be the one that lasts.” Zoltán Néda, Babeş-Bolyai University, Romania “I really liked the five pillars delineating the components of humanism in research. This book has made a major contribution to the research ethics literature.” David Fleming, University of Missouri, USA A comprehensive review of the research phase of life sciences from design to discovery with suggestions to improve innovation This vital resource explores the creative processes leading to biomedical innovation, identifies the obstacles and best practices of innovative laboratories, and supports the production of effective science. Innovative Research in Life Sciences draws on lessons from 400 award-winning scientists and research from leading universities. The book explores the innovative process in life sciences and puts the focus on how great ideas are born and become landmark scientific discoveries. The text provides a unique resource for developing professional competencies and applied skills of life sciences researchers. The book examines what happens before the scientific paper is submitted for publication or the innovation becomes legally protected. This phase is the most neglected but most exciting in the process of scientific creativity and innovation. The author identifies twelve competencies of innovative biomedical researchers that described and analyzed. This important resource: Highlights the research phase from design to discovery that precedes innovation disclosure Offers a step by step explanation of how to improve innovation Offers solutions for improving research and innovation productivity in the life sciences Contains a variety of statistical databases and a vast number of stories about individual discoveries Includes a process of published studies and national statistics of biomedical research and reviews the performance of research labs and academic institutions Written for academics and researchers in biomedicine, pharmaceutical science, life sciences, drug discovery, pharmacology, Innovative Research in Life Sciences offers a guide to the creative processes leading to biomedical innovation and identifies the best practices of innovative scientists and laboratories.
The concept of community-led research has taken off in recent years in a variety of fields, from archaeology and anthropology to social work and everything in between. Drawing on case studies from Australia, the Pacific and Southeast Asia, this book considers what it means to participate in community-led research, for both communities and researchers. How can researchers and communities work together well, and how can research be reimagined using the knowledge of First Nations peoples and other communities to ensure it remains relevant, sustainable, socially just and inclusive?
This book describes efforts made at Harvard Medical School during the past to reorient general medical education. Harvard's New Pathway has received national attention since its inception--including a multipart special on PBS's Nova--because it offers a radical restructuring of the traditional medical school curriculum.
Interest in Mathematics and Science Learning, edited by K. Ann Renninger, Martin Nieswandt, and Suzanne Hidi, is the first volume to assemble findings on the role of interest in mathematics and science learning. As the contributors illuminate across the volume's 22 chapters, interest provides a critical bridge between cognition and affect in learning and development. This volume will be useful to educators, researchers, and policy makers, especially those whose focus is mathematics, science, and technology education.