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Learn how to think like a scientist, look at the world in a brand-new way and have tons of fun with science comedian Steve Mould's bold and playful kids science book. Supporting STEM and STEAM education initiatives, How to be a Scientist will inspire kids to ask questions, do activities, think creatively, and discover amazing fun facts! A firm favorite in classrooms and homes alike, this science book for kids has earned itself a permanent spot on many family bookshelves. With more than 40 fun questions, experiments, games, and real-life scenarios that make scientific concepts fun and relevant, it's not hard to see why! Simple activities with undetermined answers encourage curious young readers to find new ways to test ideas. The stories of the great scientists and their discoveries (and failures) are told in an entertaining way to provide even further inspiration for budding young scientists. This educational book has the amazing ability to cover a wide range of ages, so if your children have an age gap this is a fantastic way to get them to engage with each other in a fun and educational way. It is informative, colorful, well written and draws you into its pages with an insatiable appetite for the simpler facts of science. Most of the home science experiments for kids are easy to do with items most people already have around the house, making it super easy to go from idea to execution. Explore, Investigate And Test Your Ideas! Discover the skills it takes to become a scientist. Being a scientist isn't just about wearing a white coat and doing experiments in a lab. It's about exploring, investigating, testing and figuring out how things work. How To Be A Scientist is packed with fun activities and projects that let you answer lots of tricky questions and help to explain the world around you. This kid's educational book challenges children to think for themselves and covers topics like: - Weather, making a tornado, the water cycle, how to make a compass - Energy, hot air balloons, electricity, Newton and Einstein - The solar system, making a sundial, creating your own sunrise, phases of the moon How to be a Scientist (Careers for Kids) is one of four fantastic books in the How to... educational books series, including How To Be A Math Genius, How to Be Good at Math, andHow to Make a Better World. Official reviews include: International Literacy Association's Children's Choices 2018 Reading List "Readers will be inspired to learn more about how to think and act like these famous scientists while uncovering deep scientific knowledge they can apply through fun-filled science projects." Minnesota Parent "This mix of classic and unusual science anecdotes and experiments is just the thing for budding STEM/STEAM fans, including tips for learning how to think and act like a scientist with fun activities and simple scientific explanations of biology, anatomy, physics, astronomy, chemistry and more."
Robert Kanigel takes us into the heady world of a remarkable group of scientists working at the National Institutes of Health and the Johns Hopkins University: a dynasty of American researchers who for over forty years have made Nobel Prize- and Lasker Award-winning breakthroughs in biomedical science.
This sparkling collection explores the impact of Richard Dawkins as scientist, rationalist, and one of the most important thinkers alive today. Specially commissioned pieces by leading figures in science, philosophy, literature, and the media, such as Daniel C. Dennett, Matt Ridley, Steven Pinker, Philip Pullman, and the Bishop of Oxford, highlight the breadth and range of Dawkins' influence on modern science and culture, from the gene's eye view of evolution to his energetic engagement in public debates on science, rationalism, and religion. The volume includes personal reminiscences and critical debate as well as accessible discussions of science - it provides a stimulating tribute to a remarkable intellectual.
Born to parents who were enthusiastic naturalists, and linked through his wider family to a clutch of accomplished scientists, Richard Dawkins was bound to have biology in his genes. But what were the influences that shaped his life? And who inspired him to become the pioneering scientist and public thinker now famous (and infamous to some) around the world? In An Appetite for Wonder we join him on a personal journey from an enchanting childhood in colonial Africa, through the eccentricities of boarding school in England, to his studies at the University of Oxford’s dynamic Zoology Department, which sparked his radical new vision of Darwinism, The Selfish Gene. Through Dawkins’s honest self-reflection, touching reminiscences and witty anecdotes, we are finally able to understand the private influences that shaped the public man who, more than anyone else in his generation, explained our own origins.
A wide-ranging exploration of how music has influenced science through the ages, from fifteenth-century cosmology to twentieth-century string theory. In the natural science of ancient Greece, music formed the meeting place between numbers and perception; for the next two millennia, Pesic tells us in Music and the Making of Modern Science, “liberal education” connected music with arithmetic, geometry, and astronomy within a fourfold study, the quadrivium. Peter Pesic argues provocatively that music has had a formative effect on the development of modern science—that music has been not just a charming accompaniment to thought but a conceptual force in its own right. Pesic explores a series of episodes in which music influenced science, moments in which prior developments in music arguably affected subsequent aspects of natural science. He describes encounters between harmony and fifteenth-century cosmological controversies, between musical initiatives and irrational numbers, between vibrating bodies and the emergent electromagnetism. He offers lively accounts of how Newton applied the musical scale to define the colors in the spectrum; how Euler and others applied musical ideas to develop the wave theory of light; and how a harmonium prepared Max Planck to find a quantum theory that reengaged the mathematics of vibration. Taken together, these cases document the peculiar power of music—its autonomous force as a stream of experience, capable of stimulating insights different from those mediated by the verbal and the visual. An innovative e-book edition available for iOS devices will allow sound examples to be played by a touch and shows the score in a moving line.
What did it mean to be a scientist before the profession itself existed? Jan Golinski finds an answer in the remarkable career of Humphry Davy, the foremost chemist of his day and one of the most distinguished British men of science of the nineteenth century. Originally a country boy from a modest background, Davy was propelled by his scientific accomplishments to a knighthood and the presidency of the Royal Society. An enigmatic figure to his contemporaries, Davy has continued to elude the efforts of biographers to classify him: poet, friend to Coleridge and Wordsworth, author of travel narratives and a book on fishing, chemist and inventor of the miners’ safety lamp. What are we to make of such a man? In The Experimental Self, Golinski argues that Davy’s life is best understood as a prolonged process of self-experimentation. He follows Davy from his youthful enthusiasm for physiological experiment through his self-fashioning as a man of science in a period when the path to a scientific career was not as well-trodden as it is today. What emerges is a portrait of Davy as a creative fashioner of his own identity through a lifelong series of experiments in selfhood.
Writing with extraordinary candor, Dr. Sagdeev reveals startling details of the most politically sensitive scientific issues of the Cold War years. He identifies the key players in the Soviet nuclear weapons program (nearly all of whom he worked with) and recounts the internal battles over SDI technology and his own role in killing Russia's own "Star Wars" program.
Every day you answer questions-dozens, even hundreds of them. How do you find the answers to questions? How can you be sure your answers are correct? Scientists use questions to learn about things. Scientists have developed a way of helping make sure they answer questions correctly. It is called the scientific method. The scientific method can help you find answers to many of the questions you are curious about. What kind of food does your dog like best? Is your sister more likely to help you with your homework if you say please? Can throwing a dead snake over a tree branch make it rain? The scientific method can help you answer these questions and many others. Stephen Kramer's invitation to think like a scientist, illustrated by Felicia Bond's humorous and appealing pictures, will receive enthusiastic response from young readers, scientist and nonscientist alike.