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Once in a great while, as the New York Times noted recently, a naturalist writes a book that changes the way people look at the living world. John James Audubon’s Birds of America, published in 1838, was one. Roger Tory Peterson’s 1934 Field Guide to the Birds was another. How does such insight into nature develop? Pioneering a new niche in the study of plants and animals in their native habitat, Field Notes on Science and Nature allows readers to peer over the shoulders and into the notebooks of a dozen eminent field workers, to study firsthand their observational methods, materials, and fleeting impressions. What did George Schaller note when studying the lions of the Serengeti? What lists did Kenn Kaufman keep during his 1973 “big year”? How does Piotr Naskrecki use relational databases and electronic field notes? In what way is Bernd Heinrich’s approach “truly Thoreauvian,” in E. O. Wilson’s view? Recording observations in the field is an indispensable scientific skill, but researchers are not generally willing to share their personal records with others. Here, for the first time, are reproductions of actual pages from notebooks. And in essays abounding with fascinating anecdotes, the authors reflect on the contexts in which the notes were taken. Covering disciplines as diverse as ornithology, entomology, ecology, paleontology, anthropology, botany, and animal behavior, Field Notes offers specific examples that professional naturalists can emulate to fine-tune their own field methods, along with practical advice that amateur naturalists and students can use to document their adventures.
Science is a way of knowing about the world. At once a process, a product, and an institution, science enables people to both engage in the construction of new knowledge as well as use information to achieve desired ends. Access to scienceâ€"whether using knowledge or creating itâ€"necessitates some level of familiarity with the enterprise and practice of science: we refer to this as science literacy. Science literacy is desirable not only for individuals, but also for the health and well- being of communities and society. More than just basic knowledge of science facts, contemporary definitions of science literacy have expanded to include understandings of scientific processes and practices, familiarity with how science and scientists work, a capacity to weigh and evaluate the products of science, and an ability to engage in civic decisions about the value of science. Although science literacy has traditionally been seen as the responsibility of individuals, individuals are nested within communities that are nested within societiesâ€"and, as a result, individual science literacy is limited or enhanced by the circumstances of that nesting. Science Literacy studies the role of science literacy in public support of science. This report synthesizes the available research literature on science literacy, makes recommendations on the need to improve the understanding of science and scientific research in the United States, and considers the relationship between scientific literacy and support for and use of science and research.
Winner of the Overseas Press Club of America's Cornelius Ryan Award • Finalist for the Pulitzer Prize in Nonfiction A New York Times Book Review Notable Book • Named a Best Book of the Year by New York Magazine and The Progressive "A deeply honest and brave portrait of of an individual sensibility reckoning with her country's violent role in the world." —Hisham Matar, The New York Times Book Review In the wake of the September 11 attacks and the U.S.-led invasion of Iraq, Suzy Hansen, who grew up in an insular conservative town in New Jersey, was enjoying early success as a journalist for a high-profile New York newspaper. Increasingly, though, the disconnect between the chaos of world events and the response at home took on pressing urgency for her. Seeking to understand the Muslim world that had been reduced to scaremongering headlines, she moved to Istanbul. Hansen arrived in Istanbul with romantic ideas about a mythical city perched between East and West, and with a naïve sense of the Islamic world beyond. Over the course of her many years of living in Turkey and traveling in Greece, Egypt, Afghanistan, and Iran, she learned a great deal about these countries and their cultures and histories and politics. But the greatest, most unsettling surprise would be what she learned about her own country—and herself, an American abroad in the era of American decline. It would take leaving her home to discover what she came to think of as the two Americas: the country and its people, and the experience of American power around the world. She came to understand that anti-Americanism is not a violent pathology. It is, Hansen writes, “a broken heart . . . A one-hundred-year-old relationship.” Blending memoir, journalism, and history, and deeply attuned to the voices of those she met on her travels, Notes on a Foreign Country is a moving reflection on America’s place in the world. It is a powerful journey of self-discovery and revelation—a profound reckoning with what it means to be American in a moment of grave national and global turmoil.
What types of instructional experiences help K-8 students learn science with understanding? What do science educators, teachers, teacher leaders, science specialists, professional development staff, curriculum designers, and school administrators need to know to create and support such experiences? Ready, Set, Science! guides the way with an account of the groundbreaking and comprehensive synthesis of research into teaching and learning science in kindergarten through eighth grade. Based on the recently released National Research Council report Taking Science to School: Learning and Teaching Science in Grades K-8, this book summarizes a rich body of findings from the learning sciences and builds detailed cases of science educators at work to make the implications of research clear, accessible, and stimulating for a broad range of science educators. Ready, Set, Science! is filled with classroom case studies that bring to life the research findings and help readers to replicate success. Most of these stories are based on real classroom experiences that illustrate the complexities that teachers grapple with every day. They show how teachers work to select and design rigorous and engaging instructional tasks, manage classrooms, orchestrate productive discussions with culturally and linguistically diverse groups of students, and help students make their thinking visible using a variety of representational tools. This book will be an essential resource for science education practitioners and contains information that will be extremely useful to everyone �including parents �directly or indirectly involved in the teaching of science.
This book presents outstanding theoretical and practical findings in data science and associated interdisciplinary areas. Its main goal is to explore how data science research can revolutionize society and industries in a positive way, drawing on pure research to do so. The topics covered range from pure data science to fake news detection, as well as Internet of Things in the context of Industry 4.0. Data science is a rapidly growing field and, as a profession, incorporates a wide variety of areas, from statistics, mathematics and machine learning, to applied big data analytics. According to Forbes magazine, “Data Science” was listed as LinkedIn’s fastest-growing job in 2017. This book presents selected papers from the International Conference on Contemporary Issues in Data Science (CiDaS 2019), a professional data science event that provided a real workshop (not “listen-shop”) where scientists and scholars had the chance to share ideas, form new collaborations, and brainstorm on major challenges; and where industry experts could catch up on emerging solutions to help solve their concrete data science problems. Given its scope, the book will benefit not only data scientists and scientists from other domains, but also industry experts, policymakers and politicians.
Freshwater is our planet's most precious resource — essential for life itself. Despite this fact, many people across our planet face difficulties finding safe, clean, potable water. A U.S. State Department report contends that the world's thirst for water may become a human security crisis by 2040. The World Bank reports many developing nations face catastrophe from intensive irrigation, urbanization, and deteriorating infrastructure. Also, numerous reports contend that in many places un-treated wastewater is still released directly into the environment. This is particularly true in low-income countries, which on average treat less than 10% of their wastewater discharges.In short, we face three imminent challenges regarding freshwater: (1) demands by agriculture, cities, industry, and energy production are increasing; (2) severe pollution from various contaminants and growing withdrawals are limiting the capacity of waterways to dilute contaminants — threatening human and aquatic life; and, (3) climate change will cause periods of frequent and severe droughts — punctuated by acute periods of flooding.The goal of this book is to illuminate how the governance of freshwater is a political, social, economic, cultural, and ecological challenge. The management and provision of water are not merely technical problems whose resolution hinges on hydrological principle, cost, or engineering feasibility. They are products of decisions made by governments, businesses, and interest groups that exercise control over who has access to water, how they use it, and in what condition they receive it. It discusses basic knowledge about water supply and quality; the evolution of water policy in different societies; the importance of water to human and environmental health; the role of law, politics, and markets in its allocation, use, and protection; and, the importance of ethics in its equitable provision.
This book provides a comprehensive discussion of the economics of International Trade.Key questions related to why countries trade, how they gain from trade, and how international trade can produce winners and losers are answered. The last of these questions is related to the connection of trade to inequality in the distribution of income.The book uses both theoretical models and empirical evidence to answer these questions. It also provides a discussion of the economics of labor migration and international capital mobility. The book also provides a detailed discussion of the welfare implications of various trade policy instruments such as tariffs, quotas, export subsidies etc. This is followed by a discussion of the process of actual policymaking in democratic societies which goes into the realm of political economy. The focus here is on the political economy of trade policy. It also provides a discussion of the economics of preferential trading agreements and a history of multilateral trading agreements under the aegis of GATT (General Agreement on Tariffs and Trade) and its evolution into the World Trade Organization (WTO).
Science, engineering, and technology permeate nearly every facet of modern life and hold the key to solving many of humanity's most pressing current and future challenges. The United States' position in the global economy is declining, in part because U.S. workers lack fundamental knowledge in these fields. To address the critical issues of U.S. competitiveness and to better prepare the workforce, A Framework for K-12 Science Education proposes a new approach to K-12 science education that will capture students' interest and provide them with the necessary foundational knowledge in the field. A Framework for K-12 Science Education outlines a broad set of expectations for students in science and engineering in grades K-12. These expectations will inform the development of new standards for K-12 science education and, subsequently, revisions to curriculum, instruction, assessment, and professional development for educators. This book identifies three dimensions that convey the core ideas and practices around which science and engineering education in these grades should be built. These three dimensions are: crosscutting concepts that unify the study of science through their common application across science and engineering; scientific and engineering practices; and disciplinary core ideas in the physical sciences, life sciences, and earth and space sciences and for engineering, technology, and the applications of science. The overarching goal is for all high school graduates to have sufficient knowledge of science and engineering to engage in public discussions on science-related issues, be careful consumers of scientific and technical information, and enter the careers of their choice. A Framework for K-12 Science Education is the first step in a process that can inform state-level decisions and achieve a research-grounded basis for improving science instruction and learning across the country. The book will guide standards developers, teachers, curriculum designers, assessment developers, state and district science administrators, and educators who teach science in informal environments.
I. Personal reminiscences. Introduction. "BCS" and me. A mile of dirty lead wire: a fable for the scientifically literate. Scientific and personal reminiscences of Ryogo Kubo -- II. History. Introduction. Physics at Bell Labs, 1949-1984: young Turks and younger Turks. It's not over till the fat lady sings. Reflections on twentieth century physics: historical overview of the 20t century in Physics. 21st century Physics. Y. Nambu and broken symmetry. Nevill Mott, John Slater, and the "magnetic state": winning the prize and losing the PR battle -- III. Philosophy and sociology. Introduction. Emergence vs. reductionism. Is the theory of everything the theory of anything? Is measurement itself an emergent property? Good news and bad news. The future lies ahead. Could modern America have invented wave mechanics?. Loose ends and Gordian knots of the string cult. Imaginary friend, who art in heaven -- IV. Science tactics and strategy. Introduction. Solid state experimentalists: theory should be on tap, not on top. Shadows of doubt. The Reverend Thomas Bayes, needles in haystacks, and the fifth force. Emerging physics. On the nature of physical laws. On the "unreasonable efficacy of mathematics"--A proposition by Wigner. When scientists go astray. Further investigations -- V. Genius. Introduction. What mad pursuit. Complexities of Feynman coffee-table complexities. Search for polymath's elementary particles. Giant who started the silicon age. The quiet man of physics. A theoretical physicist. Some thoughtful words (not mine) on research strategy for theorists -- VI. Science wars. Introduction. They think it's all over. Science: a 'dappled world' or a 'seamless web'? Reply to Cartwright. Postmodernism, politics and religion -- VII. Politics and science. Introduction. Politics and science. The case against Star Wars. A dialogue about Star Wars. No facts, just the right answers -- VIII. Futurology. Introduction. Futurology. Dizzy with future Schlock. Einstein and the p-branes. Forecaster fails to detect any clouds -- IX. Complexity. Introduction. Physics: the opening to complexity. Is complexity physics? Is it science? What is it? Complexity II: the Santa Fe Institute. Whole truths false in part -- X. Popularization attempts. Introduction. Who or what is RVB? More on RVB. Brainwashed by Feynman? Just exactly what do you do, Dr. Anderson? What is a condensed matter theorist? Global economy II: or, how do you follow a great act?