Over 200 intriguing science questions - answered. This is the ideal science encyclopedia to help budding Einsteins ages 6 and up with their school and homework projects - as well as for parents who need to answer those tricky science questions. Do You Know About Science? brings subjects such as the living world, human body, the material world, energy, forces and movement, and our planet to life, with colourful pages and a fun question and answer format. Where does light come from? Can I feel forces? What is my body made of? Why is lemon juice sour? Do You Know About Science? focuses on the subjects that kids really want to know about and the questions they ask, helping them easily learn new information. From everyday questions such as what makes the light turn on, to the bigger questions like what is in space, Do You Know About Science? will satisfy even the most curious minds with an amazing collection of facts.
One of the pathways by which the scientific community confirms the validity of a new scientific discovery is by repeating the research that produced it. When a scientific effort fails to independently confirm the computations or results of a previous study, some fear that it may be a symptom of a lack of rigor in science, while others argue that such an observed inconsistency can be an important precursor to new discovery. Concerns about reproducibility and replicability have been expressed in both scientific and popular media. As these concerns came to light, Congress requested that the National Academies of Sciences, Engineering, and Medicine conduct a study to assess the extent of issues related to reproducibility and replicability and to offer recommendations for improving rigor and transparency in scientific research. Reproducibility and Replicability in Science defines reproducibility and replicability and examines the factors that may lead to non-reproducibility and non-replicability in research. Unlike the typical expectation of reproducibility between two computations, expectations about replicability are more nuanced, and in some cases a lack of replicability can aid the process of scientific discovery. This report provides recommendations to researchers, academic institutions, journals, and funders on steps they can take to improve reproducibility and replicability in science.
As more schools begin to implement the National Science Education Standards, adults who care about the quality of K-12 science education in their communities may want to help their local schools make the transition. This booklet provides guidance to parents and others, explains why high-quality science education is important for all children and young adults, and shows how the quality of school science programs can be measured. Center for Science, Mathematics, and Engineering Education Staff; 1998, 32 pages, 8.5 x 11, single copy, $10.00; 2-9 copies, $7.00 each; 10 or more copies, $4.50 each (no other discounts apply).
Satisfy your curious budding scientist with a book that explains the way we explain everything else. It all comes down to Science! Learn about a range of subjects that tell us about everything. From earth science and biology, to energy, physics, and astronomy. We give the answers to the questions kids aged 7-10 really want to know about in easy-to-follow question and answer format. This book focuses on the subjects that kids really want to know about and the questions they ask. Every question is answered with a detailed explanation, rich illustrations, and easy to understand text that will ease the curiosity of young minds. From earth science and biology to energy, physics, and astronomy. Did You Know? Science makes learning the science behind everyday matters easy to understand, fun, and engaging. Answers to over 200 questions about the living world, the human body, the material world, energy, forces, movement, and our planet. Described in colorful pages and in a fun question-and-answer format. Designed for ages 5-9 and organized into easy to understand bite-size nuggets of information. Fantastic Facts For Curious Minds! Did You Know? Science answers all the amazing questions children have about science, from how lights turn on and what makes cars go, to what makes the Earth look blue and how people move! This colorful and exciting book is full of awesome pictures and incredible facts about magnets, fossils, the human body, our planet, and much more! This is the ideal science encyclopedia to help your budding Einstein, as well as for parents who need to answer those tricky science questions sparked by curiosity. “Where does light come from? Can I feel forces? What is my body made of?” This amazing science book will answer interesting questions about: - The Living World - The Human Body - The Material World - Energy - Our Planet - Forces And Movement Did You Know? Science: Amazing Answers To More Than 200 Awesome Questions is part of the educational series Did You Know? Encyclopedias. Complete the collection and learn more about the world around you and the questions you ask, science, and space.
What is Science? A Guide for Those Who Love It, Hate It, or Fear It, provides the reader with ways science has been done through discovery, exploration, experimentation and other reason-based approaches. It discusses the basic and applied sciences, the reasons why some people hate science, especially its rejection of the supernatural, and others who fear it for human applications leading to environmental degradation, climate change, nuclear war, and other outcomes of sciences applied to society.The author uses anecdotes from interviews and associations with many scientists he has encountered in his career to illustrate these features of science and their personalities and habits of thinking or work. He also explores the culture wars of science and the humanities, values involved in doing science and applying science, the need for preventing unexpected outcomes of applied science, and the ways our world view changes through the insights of science. This book will provide teachers lots of material for discussion about science and its significance in our lives. It will also be helpful for those starting out their interest in science to know the worst and best features of science as they develop their careers.
Why the social character of scientific knowledge makes it trustworthy Are doctors right when they tell us vaccines are safe? Should we take climate experts at their word when they warn us about the perils of global warming? Why should we trust science when so many of our political leaders don't? Naomi Oreskes offers a bold and compelling defense of science, revealing why the social character of scientific knowledge is its greatest strength—and the greatest reason we can trust it. Tracing the history and philosophy of science from the late nineteenth century to today, this timely and provocative book features a new preface by Oreskes and critical responses by climate experts Ottmar Edenhofer and Martin Kowarsch, political scientist Jon Krosnick, philosopher of science Marc Lange, and science historian Susan Lindee, as well as a foreword by political theorist Stephen Macedo.
A vivid portrait of how Naval oversight shaped American oceanography, revealing what difference it makes who pays for science. What difference does it make who pays for science? Some might say none. If scientists seek to discover fundamental truths about the world, and they do so in an objective manner using well-established methods, then how could it matter who’s footing the bill? History, however, suggests otherwise. In science, as elsewhere, money is power. Tracing the recent history of oceanography, Naomi Oreskes discloses dramatic changes in American ocean science since the Cold War, uncovering how and why it changed. Much of it has to do with who pays. After World War II, the US military turned to a new, uncharted theater of warfare: the deep sea. The earth sciences—particularly physical oceanography and marine geophysics—became essential to the US Navy, which poured unprecedented money and logistical support into their study. Science on a Mission brings to light how this influx of military funding was both enabling and constricting: it resulted in the creation of important domains of knowledge but also significant, lasting, and consequential domains of ignorance. As Oreskes delves into the role of patronage in the history of science, what emerges is a vivid portrait of how naval oversight transformed what we know about the sea. It is a detailed, sweeping history that illuminates the ways funding shapes the subject, scope, and tenor of scientific work, and it raises profound questions about the purpose and character of American science. What difference does it make who pays? The short answer is: a lot.
"Sleep is one of the most important but least understood aspects of our life, wellness, and longevity ... An explosion of scientific discoveries in the last twenty years has shed new light on this fundamental aspect of our lives. Now ... neuroscientist and sleep expert Matthew Walker gives us a new understanding of the vital importance of sleep and dreaming"--Amazon.com.
A concise and accessible primer on the scientific writer's craft The ability to write clearly is critical to any scientific career. The Scientist's Guide to Writing provides practical advice to help scientists become more effective writers so that their ideas have the greatest possible impact. Drawing on his own experience as a scientist, graduate adviser, and editor, Stephen Heard emphasizes that the goal of all scientific writing should be absolute clarity; that good writing takes deliberate practice; and that what many scientists need are not long lists of prescriptive rules but rather direct engagement with their behaviors and attitudes when they write. He combines advice on such topics as how to generate and maintain writing momentum with practical tips on structuring a scientific paper, revising a first draft, handling citations, responding to peer reviews, managing coauthorships, and more. In an accessible, informal tone, The Scientist's Guide to Writing explains essential techniques that students, postdoctoral researchers, and early-career scientists need to write more clearly, efficiently, and easily. Emphasizes writing as a process, not just a product Encourages habits that improve motivation and productivity Explains the structure of the scientific paper and the function of each part Provides detailed guidance on submission, review, revision, and publication Addresses issues related to coauthorship, English as a second language, and more
