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The Scientific Revolution (science.culture)
by Steven Shapin“There was no such thing as the Scientific Revolution, and this is a book about it.” With this provocative and apparently paradoxical claim, Steven Shapin begins his bold, vibrant exploration of the origins of the modern scientific worldview, now updated with a new bibliographic essay featuring the latest scholarship. “An excellent book.”—Anthony Gottlieb, New York Times Book Review “Timely and highly readable. . . . A book which every scientist curious about our predecessors should read.”—Trevor Pinch, New Scientist “Shapin's account is informed, nuanced, and articulated with clarity. . . . This is not to attack or devalue science but to reveal its richness as the human endeavor that it most surely is. . . . Shapin's book is an impressive achievement.”—David C. Lindberg, Science “It's hard to believe that there could be a more accessible, informed or concise account. . . . The Scientific Revolution should be a set text in all the disciplines. And in all the indisciplines, too.”—Adam Phillips, London Review of Books
Scientific Satellite and Moon-Based Earth Observation for Global Change (Springer Remote Sensing/photogrammetry Ser.)
by Huadong Guo Wenxue Fu Guang LiuGlobal change involves complex and far-reaching variations in the Earth’s systems, and satellite observations have been widely used in global change studies. Over the past five decades, Earth observation has developed into a comprehensive system that can conduct dynamic monitoring of the land, the oceans and the atmosphere at the local, regional and even global scale. At the same time, although a large number of Earth observation satellites have been launched, very few of them are used in global change studies. The lack of scientific satellite programs greatly hinders research on global change. This book proposes using a series of global change scientific satellites to establish a scientific observation grid for global environmental change monitoring from space, and offers the first comprehensive review of lunar-based Earth observation. These scientific satellites could provide not only basic datasets but also scientific support in facilitating advances in international global change research.
Scientific Scholarly Communication
by Pali U. K. Silva Candace VanceThis book critically examines the historical developments and current trends in the scientific scholarly communication system, issues and challenges in scientific scholarly publishing and scientific data sharing, implications and debates associated with the influence of intellectual property rights on scientific information sharing, and new trends related to peer reviewing and measuring the impact of scientific publications. Based on thorough examination of published literature, the book illustrates the involvement of many stakeholders--scientists, science educators, university administrators, government entities, research funders, and other interested parties--in this complex and dynamic system. The discussion highlights the roles these stakeholders have to play, individually and collaboratively, to help transform the future of the scientific scholarly communication system.
The Scientific Sherlock Holmes: Cracking the Case With Science and Forensics
by James O'BrienOne of the most popular and widely known characters in all of fiction, Sherlock Holmes has an enduring appeal based largely on his uncanny ability to make the most remarkable deductions from the most mundane facts. The very first words that Sherlock Holmes ever says to Dr. Watson are, "How are you? You have been in Afghanistan, I perceive. " Watson responds, "How on earth did you know that?" And so a crime-solving legend is born. In The Scientific Sherlock Holmes, James O'Brien provides an in-depth look at Holmes's use of science in his investigations. Indeed, one reason for Holmes's appeal is his frequent use of the scientific method and the vast scientific knowledge which he drew upon to solve mysteries. For instance, in heart of the book, the author reveals that Holmes was a pioneer of forensic science, making use of fingerprinting well before Scotland Yard itself had adopted the method. One of the more appealing aspects of the book is how the author includes real-world background on topics such as handwriting analysis, describing how it was used to capture the New York Zodiac killer and to clinch the case against the Lindbergh baby kidnapper. Sherlock Holmes was knowledgeable about several sciences, most notably chemistry. Therefore the book takes a close look at Holmes the chemist and discusses, for example, chemical poisons such as carbon monoxide, chloroform, and Prussic acid (the historical name for hydrogen cyanide). The author also debunks Isaac Asimov's famous assertion that Holmes was a blundering chemist. In addition, the book discusses mathematics, physics, biology, astronomy, meteorology, and geology, always in the context of Holmes's exploits. Sherlock Holmes continues to fascinate millions of readers and movie goers alike. The Scientific Sherlock Holmes is a must-read for the legion of fans of this most beloved of all fictional detectives.
Scientific Sources and Teaching Contexts Throughout History: Problems and Perspectives
by Alain Bernard Christine ProustThis book examines the textual, social, cultural, practical and institutional environments to which the expression "teaching and learning contexts" refers. It reflects on the extent to which studying such environments helps us to better understand ancient or modern sources, and how notions of "teaching" and "learning" are to be understood. Tackling two problems: the first, is that of certain sources of scientific knowledge being studied without taking into account the various "contexts" of transmission that gave this knowledge a long-lasting meaning. The second is that other sources are related to teaching and learning activities, but without being too precise and demonstrative about the existence and nature of this "teaching context". In other words, this book makes clear what is meant by "context" and highlights the complexity of the practice hidden by the words "teaching" and "learning". Divided into three parts, the book makes accessible teaching and learning situations, presents comparatist approaches, and emphasizes the notion of teaching as projects embedded in coherent treatises or productions.
The Scientific Spirit of American Humanism (Medicine, Science, and Religion in Historical Context)
by Stephen P. WeldonThe story of how prominent liberal intellectuals reshaped American religious and secular institutions to promote a more democratic, science-centered society.Recent polls show that a quarter of Americans claim to have no religious affiliation, identifying instead as atheists, agnostics, or "nothing in particular." A century ago, a small group of American intellectuals who dubbed themselves humanists tread this same path, turning to science as a major source of spiritual sustenance. In The Scientific Spirit of American Humanism, Stephen P. Weldon tells the fascinating story of this group as it developed over the twentieth century, following the fortunes of a few generations of radical ministers, academic philosophers, and prominent scientists who sought to replace traditional religion with a modern, liberal, scientific outlook. Weldon explores humanism through the networks of friendships and institutional relationships that underlay it, from philosophers preaching in synagogues and ministers editing articles of Nobel laureates to magicians invoking the scientific method. Examining the development of an increasingly antagonistic engagement between religious conservatives and the secular culture of the academy, Weldon explains how this conflict has shaped the discussion of science and religion in American culture. He also uncovers a less known—but equally influential—story about the conflict within humanism itself between two very different visions of science: an aspirational, democratic outlook held by the followers of John Dewey on the one hand, and a skeptical, combative view influenced by logical positivism on the other. Putting America's distinctive science talk into historical perspective, Weldon shows how events such as the Pugwash movement for nuclear disarmament, the ongoing evolution controversies, the debunking of pseudo-science, and the selection of scientists and popularizers like Carl Sagan and Isaac Asimov as humanist figureheads all fit a distinctly American ethos. Weldon maintains that this secular ethos gained much of its influence by tapping into the idealism found in the American radical religious tradition that includes the deism of Thomas Paine, nineteenth-century rationalism and free thought, Protestant modernism, and most important, Unitarianism. Drawing on archival research, interviews, and a thorough study of the main humanist publications, The Scientific Spirit of American Humanism reveals a new level of detail about the personal and institutional forces that have shaped major trends in American secular culture. Significantly, the book shows why special attention to American liberal religiosity remains critical to a clear understanding of the scientific spirit in American culture.
Scientific Standards for Studies on Modified Risk Tobacco Products
by Institute of Medicine of the National AcademiesSmoking is the leading cause of preventable morbidity and mortality in the United States, contributing to approximately 443,000 premature deaths each year nationally (CDC, 2008). Smoking-related disease causes more deaths than alcohol, illicit drug use, homicide, and suicide combined (Mokdad et al., 2004). Another 8.6 million smokers in the United States live with a smoking-attributable illness (CDC, 2009a). In total, tobacco-related mortality amounts to approximately 5.1 million years of potential life lost per year (CDC, 2008). Smoking also imposes enormous costs on the U.S. health care system and economy, with an estimated $193 billion in losses due to health care costs and productivity losses per year (CDC, 2008). <P> The current prevalence of cigarette use is 20.6 percent among adults and 19.5 percent in youth (CDC, 2010, 2011). After substantial declines in adult smoking rates through the 1980s and 1990s, the rate of U.S. adult smokers has remained relatively static from 20.9 percent in 2004 to 20.6 percent in 2009 (CDC, 2010). Between 1997 and 2003, smoking prevalence among high school students declined substantially from 36.4 percent to 21.9 percent; this decline slowed from a 21.9 percent youth smoking rate in 2003 to 19.5 percent in 2009 (CDC, 2011). Of the 46 million adult smokers in the United States, an estimated 70 percent of smokers wish to quit completely, and approximately 45 percent of smokers attempt to quit each year (CDC, 2002, 2009b). However, only approximately 6 percent of the smokers who attempt to quit are successful for 1 month or more (HHS, 2000).
Scientific Structuralism
by Alisa Bokulich Peter BokulichRecently there has been a revival of interest in structuralist approaches to science. Taking their lead from scientific structuralists such as Henri Poincaré, Ernst Cassirer, and Bertrand Russell, some contemporary philosophers and scientists have argued that the most fruitful approach to solving many problems in the philosophy of science lies in focusing on the structural features of our scientific theories. Much of the work in scientific structuralism to date has been focused on the problem of scientific realism, where it has been argued that even in cases of radical theory change the most important structural features of predecessor theories are preserved. These structural realists argue that what our most successful theories get right about the world is these abstract structural features, rather than any particular ontological claims. More recently, philosophers of science have adopted structuralist approaches to many other issues in the philosophy of science, such as scientific explanation and intertheory relations. The nine articles collected in this volume, written by the leading researchers in scientific structuralism, represent some of the most important directions of research in this field. This book will be of particular interest to those philosophers, scientists, and mathematicians who are interested in the foundations of science.
Scientific Structuralism (Boston Studies in the Philosophy and History of Science #281)
by Alisa Bokulich Peter BokulichRecently there has been a revival of interest in structuralist approaches to science. Taking their lead from scientific structuralists such as Henri Poincaré, Ernst Cassirer, and Bertrand Russell, some contemporary philosophers and scientists have argued that the most fruitful approach to solving many problems in the philosophy of science lies in focusing on the structural features of our scientific theories. Much of the work in scientific structuralism to date has been focused on the problem of scientific realism, where it has been argued that even in cases of radical theory change the most important structural features of predecessor theories are preserved. These structural realists argue that what our most successful theories get right about the world is these abstract structural features, rather than any particular ontological claims. More recently, philosophers of science have adopted structuralist approaches to many other issues in the philosophy of science, such as scientific explanation and intertheory relations. The nine articles collected in this volume, written by the leading researchers in scientific structuralism, represent some of the most important directions of research in this field. This book will be of particular interest to those philosophers, scientists, and mathematicians who are interested in the foundations of science.
Scientific Teaching
by Jo Handelsman Sarah Miller Christine PfundSeasoned classroom veterans, pre-tenured faculty, and neophyte teaching assistants alike will find this book invaluable. <p><p> HHMI Professor Jo Handelsman and her colleagues at the Wisconsin Program for Scientific Teaching (WPST) have distilled key findings from education, learning, and cognitive psychology and translated them into six chapters of digestible research points and practical classroom examples. The recommendations have been tried and tested in the National Academies Summer Institute on Undergraduate Education in Biology and through the WPST. Scientific Teaching is not a prescription for better teaching. Rather, it encourages the reader to approach teaching in a way that captures the spirit and rigor of scientific research and to contribute to transforming how students learn science.
The Scientific Truth, the Whole Truth and Nothing but the Truth
by John R. HelliwellThere is a limited understanding amongst scientists, students, and the public about realizing trust in scientific findings. This should be a paramount objective. Scientists and the public need to know more about the link between the philosophy of science and science research methods. There is a limited understanding of why accuracy is important and that it is not the same as precision. Also, there is often the need to be pragmatic and so measure an approximation of a real system, and the classic case is reductionism in biology versus whole organism biology. The author brings these topics together in terms of trusting in science.Features Covers how scientific truth is perceived and increases the preparedness of early career scientists. Examines the relatively new field of machine learning and artificial intelligence as applied to crystallography databases in biology and chemistry for new discoveries. Describes the major changes in digital data archiving and how vast “raw data” archives are being increasingly developed for machine learning and artificial intelligence as well as complete truth. This unique volume will be of interest to pre-university and university undergraduate students, principally in science. Presents scientific research examples from physics, chemistry, and biology together with their methodologies.
Scientific Understanding and Representation: Modeling in the Physical Sciences (Routledge Studies in the Philosophy of Mathematics and Physics)
by Insa Lawler Kareem Khalifa Elay ShechThis volume assembles cutting-edge scholarship on scientific understanding, scientific representation, and their delicate interplay. Featuring several articles in an engaging ‘critical conversation’ format, the volume integrates discussions about understanding and representation with perennial issues in the philosophy of science, including the nature of scientific knowledge, idealizations, scientific realism, scientific inference, and scientific progress.In the philosophy of science, questions of scientific understanding and scientific representation have only recently been put in dialogue with each other. The chapters advance these discussions from a variety of fresh perspectives. They range from case studies in physics, chemistry, and neuroscience to the representational challenges of machine learning models; from special forms of representation such as maps and topological models to the relation between understanding and explanation; and from the role of idealized representations to the role of representation and understanding in scientific progress.Scientific Understanding and Representation will appeal to scholars and advanced students working in philosophy of science, philosophy of physics, philosophy of mathematics, and epistemology.
Scientific Visual Representations in History
by Matteo Valleriani Enrico Giannetto Giulia GianniniThis book explores continuity and ruptures in the historical use of visual representations in science and related disciplines such as art history and anthropology. The book also considers more recent developments that attest to the unprecedented importance of scientific visualizations, such as video recordings, animations, simulations, graphs, and enhanced realities. The volume collects historical reflections concerned with the use of visual material, visualization, and vision in science from a historical perspective, ranging across multiple cultures from antiquity until present day. The focus is on visual representations such as drawings, prints, tables, mathematical symbols, photos, data visualizations, mapping processes, and (on a meta-level) visualizations of data extracted from historical sources to visually support the historical research itself. Continuity and ruptures between the past and present use of visual material are presented against the backdrop of the epistemic functions of visual material in science. The function of visual material is defined according to three major epistemic categories: exploration, transformation, and transmission of knowledge.
Scientific Visualization
by Charles D. Hansen Min Chen Christopher R. Johnson Arie E. Kaufman Hans HagenBased on the seminar that took place in Dagstuhl, Germany in June 2011, this contributed volume studies the four important topics within the scientific visualization field: uncertainty visualization, multifield visualization, biomedical visualization and scalable visualization. * Uncertainty visualization deals with uncertain data from simulations or sampled data, uncertainty due to the mathematical processes operating on the data, and uncertainty in the visual representation, * Multifield visualization addresses the need to depict multiple data at individual locations and the combination of multiple datasets, * Biomedical is a vast field with select subtopics addressed from scanning methodologies to structural applications to biological applications, * Scalability in scientific visualization is critical as data grows and computational devices range from hand-held mobile devices to exascale computational platforms. Scientific Visualization will be useful to practitioners of scientific visualization, students interested in both overview and advanced topics, and those interested in knowing more about the visualization process.
Scientific Wet Process Technology for Innovative LSI/FPD Manufacturing
by Tadahiro OhmiAs science pushes closer toward the atomic size scale, new challenges arise to slow the pace of the miniaturization that has transformed our society and fueled the information age. New technologies are necessary to surpass these obstacles and realize the tremendous growth predicted by Moore's law. Assembled from the works of pioneering researchers, Scientific Wet Process Technology for Innovative LSI/FPD Manufacturing presents new developments and technologies for producing the next generation of electronic circuits and displays.This book introduces radical-reaction-based semiconductor manufacturing technologies that overcome the limitations of the existing molecule-reaction-based technologies. It systematically details the procedures and underlying concepts involved in wet process technologies and applications. Following an introduction to semiconductor surface chemical electronics, expert contributors discuss the principles and technology of high-performance wet cleaning; etching technologies and processes; antistatic technology; wet vapor resist stripping technology; and process and safety technologies including waste reclamation, chemical composition control, and ultrapure water and liquid chemical supply systems and materials for fluctuation-free facilities.Currently, large production runs are needed to balance the costs of acquiring and tuning equipment for specialized operating conditions. Scientific Wet Process Technology for Innovative LSI/FPD Manufacturing explains the technologies and processes used to meet the demand for variety and low volumes that exists in today's digital electronics marketplace.
The Scientific World of Karl-Friedrich Bonhoeffer: The Entanglement Of Science, Religion, And Politics In Nazi Germany (Palgrave Studies in the History of Science and Technology)
by Kathleen L. HousleyIn twentieth-century Germany, Karl-Friedrich Bonhoeffer rose to prominence as a brilliant physical chemist, even as several of his relatives—Dietrich Bonhoeffer among them—became involved in the resistance to Hitler, leading to their executions. This book traces the entanglement of science, religion, and politics in the Third Reich and in the lives of Karl-Friedrich, his family and his colleagues, including Fritz Haber and Werner Heisenberg. Nominated for the Nobel Prize, Karl-Friedrich was an expert on heavy water, a component of the atomic bomb. During the war, he was caught in the middle between relatives who were trying to kill Hitler and friends who were helping Hitler build a nuclear weapon. Karl-Friedrich emerges as a complex figure—an agnostic whose brother was a renowned theologian, and a chemist who both reluctantly advised German nuclear scientists and collaborated with Paul Rosbaud, a spy for the British. Illuminating the uneasy position of science in twentieth-century Germany, The Scientific World of Karl-Friedrich Bonhoeffer is the story of a man in love with chemistry, his family, and his nation, trying to do right by all of them in the midst of chaos.
Scientific Writing and Communication in Agriculture and Natural Resources
by P.K. Ramachandran Nair Vimala D. NairThe purpose of this book is to help early career professionals in agriculture and natural resources write their research papers for high-quality journals and present their results properly at professional meetings. Different fields have different conventions for writing style such that the authors of the book have found it difficult to recommend to young scientists in these fields a specific book or source material out of the several that are available as the "go to" guide. Writing a scientific paper is a tedious task even to experienced writers; but it is particularly so for the early career professionals such as students, trainees, scientists and scholars in agriculture and natural resources; the challenge is even more when their first language of communication is not English. This book is targeted mainly to that group.
Scientifically Thinking: How to Liberate Your Mind, Solve the World's Problems, and Embrace the Beauty of Science
by Stanley A. RiceShows the many advantages of thinking like a scientist and argues that today's problems require a scientific approach.You don't have to be a scientist to think like a scientist. Anyone can do it and everyone should. This book will show you how. The advantages are many: from detecting bias to avoiding error and appreciating the richness of the world. Author Stanley Rice, himself a scientist, explains that science is essentially organized common sense. While the brain is hardwired for common sense, unfortunately, it also relies on a number of misleading tendencies. Instead of reasoning objectively it tends to rationalize. Often it sees what it wants to see rather than what is really there. And it is adept at both self-deception and deceiving others. Rice notes that these tendencies were useful in the past as the human race evolved in an often-hostile environment. But today bias and delusions put us at risk of worldwide catastrophe.The author invites readers to participate in the adventure of scientific discovery. He provides many interesting and humorous examples of how science works. He shows how hypothesis testing can be used to tackle everyday problems like car trouble or seeing through the specious appeal of a fad diet. Beyond practical applications, science meets the basic human need to satisfy curiosity: it tells verifiable stories about the universe, providing humans with fascinating narratives supported by testable facts. The author also explores some of science's biggest ideas, including natural selection (creating order out of randomness) and interconnectedness (Earth's systems are intricately intertwined). Read this book and learn to think like a scientist. It will guard you against being manipulated by politicians, corporations, and religious leaders, and equip you to deal with the world's most pressing problems. And you will have a lot of fun doing it.
Scientist: E. O. Wilson: A Life in Nature
by Richard RhodesA masterful, timely, fully authorized biography of the great and hugely influential biologist and naturalist E. O. Wilson, one of the most ground-breaking and controversial scientists of our time—from the Pulitzer Prize-winning author of The Making of the Atomic Bomb &“An impressive account of one of the 20th century&’s most prominent biologists, for whom the natural world is &‘a sanctuary and a realm of boundless adventure; the fewer the people in it, the better.&’&” —The New York Times Book ReviewFew biologists in the long history of that science have been as productive, as ground-breaking and as controversial as the Alabama-born Edward Osborne Wilson. At 91 years of age he may be the most eminent American scientist in any field.Fascinated from an early age by the natural world in general and ants in particular, his field work on them and on all social insects has vastly expanded our knowledge of their many species and fascinating ways of being. This work led to his 1975 book Sociobiology, which created an intellectual firestorm from his contention that all animal behavior, including that of humans, is governed by the laws of evolution and genetics. Subsequently Wilson has become a leading voice on the crucial importance to all life of biodiversity and has worked tirelessly to synthesize the fields of science and the humanities in a fruitful way.Richard Rhodes is himself a towering figure in the field of science writing and he has had complete and unfettered access to Wilson, his associates, and his papers in writing this book. The result is one of the most accomplished and anticipated and urgently needed scientific biographies in years.
The Scientist and the Psychic: A Son's Exploration of His Mother's Gift
by Christian SmithWeaving together the story of his fractured relationship to his mother with research into her paranormal abilities, Dr. Christian Smith has created, in The Scientist and the Psychic, a captivating, one-of-a-kind memoir of belief, skepticism and familial love.Christian Smith realized his mother was different in the autumn of 1977 when he was eight years old. Before then, he'd witnessed séances at home and the kids at school sometimes teased him about his mom being a witch--so he sensed that his life wasn't typical. But it wasn't until he was backstage at a renowned concert venue in Toronto, watching from behind a curtain as Geraldine commanded an audience of 2,000 with her extrasensory readings, that he understood she was special. As Geraldine's only child, he would assume the role of the quiet observer while she guided a live CBC broadcast of a séance; made startling and consistently accurate predictions; and eventually moved to LA to work with the parents of murder victims--and with convicted murderer Jeffrey R. MacDonald. Over time, the high profile and emotionally depleting work affected Geraldine's health and relationships. Addiction took over her life, and her son pulled away. Fast forward to the present day: Christian is a molecular biologist and Geraldine is retired and in poor health. They are closer than they've ever been, and now he gives us the story of her undeniable perceptual abilities and pioneering work as a psychic--and endeavours to make scientific sense of it.
The Scientist as Rebel
by Freeman J. DysonFrom Galileo to today's amateur astronomers, scientists have been rebels, writes Freeman J. Dyson. Like artists and poets, they are free spirits who resist the restrictions their cultures impose on them. In their pursuit of nature's truths, they are guided as much by imagination as by reason, and their greatest theories have the uniqueness and beauty of great works of art.Dyson argues that the best way to understand science is by understanding those who practice it. He tells stories of scientists at work, ranging from Isaac Newton's absorption in physics, alchemy, theology, and politics, to Ernest Rutherford's discovery of the structure of the atom, to Albert Einstein's stubborn hostility to the idea of black holes. His descriptions of brilliant physicists like Edward Teller and Richard Feynman are enlivened by his own reminiscences of them. He looks with a skeptical eye at fashionable scientific fads and fantasies, and speculates on the future of climate prediction, genetic engineering, the colonization of space, and the possibility that paranormal phenomena may exist yet not be scientifically verifiable. Dyson also looks beyond particular scientific questions to reflect on broader philosophical issues, such as the limits of reductionism, the morality of strategic bombing and nuclear weapons, the preservation of the environment, and the relationship between science and religion. These essays, by a distinguished physicist who is also a prolific writer, offer informed insights into the history of science and fresh perspectives on contentious current debates about science, ethics, and faith.
A Scientist at the Seashore
by James S. Trefil"A marvelous excursion from the beach to the ends of the solar system . . . captivating."--The New York Times"So easy to understand yet so dense with knowledge that you'll never look at waves on a beach the same way again."--San Francisco Chronicle"One of the best popular science books."--The Kansas City Star"Perfect for the weekend scientist."--The Richmond News-LeaderA noted physicist and popular science writer heads for the beach to answer common and uncommon questions about the ocean. James S. Trefil, author of Dover Publications' The Moment of Creation: Big Bang Physics from Before the First Millisecond to the Present Universe, explains why the sea is salty, how bubbles form on the water's surface, where waves come from, and other curiosities of the marine world. Dr. Trefil draws upon his unique gift for clarifying complex scientific principles and the theories behind them to present a narrative that is clear, accessible, and utterly compelling.
A Scientist Like Me
by Dr Shini SomaraElectrifying illustrations and an empowering story combine to introduce young readers to the world of science, observation and problem-solving.There's NOTHING that Ruben doesn't find fascinating. Why do leaves change colour? What makes ice cream melt? On a trip to the beach with his mum, he discovers how the world works and the brilliant scientists who have helped us understand it. Maybe he can try out some awesome experiments and become a scientist too?With pages encouraging kids to try out their very own science experiments such as germinating seeds and writing with invisible ink, this brilliant picture book written by scientist and TV presenter Dr Shini Somara unlocks a love of science and celebrates women in STEM.The second book in an exciting new series. Also available:- An Engineer Like Me- A Coder Like Me- A Mathematician Like Me
Scientist, Scientist, Who Do You See?
by Chris Ferrie<p>A scientific twist on a beloved children's classic that's sure to delight both parent and child! <p>Scientist, Scientist, Who do you see? I see Marie Curie in her laboratory! <p>The adored children's classic Brown Bear, Brown Bear gets a nerdy makeover in this picture book by the #1 bestselling science author for kids! Young readers will delight at taking a familiar text and poking fun at it all while learning about scientists and how they changed the world. Back matter includes brief biographical information of the featured scientists. This sweet parody is the perfect inspiration for scientists of all ages! <p>Full of scientific rhyming fun, Scientist, Scientist, Who Do You See? features appearances by some of the world's greatest scientists! From Albert Einstein to Marie Curie and Ahmed Zewail, from Charles Darwin to Chien-Shiung Wu and Grace Hopper... and more!</p>