Examining important advances by such luminaries as Copernicus, Vesalius, Newton, Darwin, and Freud, historian Peter Whitfield discusses their context and impact and charts their progress from heresy to orthodoxy. 110 illustrations, 20 in color.
'Landmarks in the History of Science' is a concise history of science from a global and macro-historical standpoint. It is an account of grand theoretical revolutions, such as heliocentrism, atomism, and relativity. But, more importantly, it is also a story of the methodological transitions to the experimental, mathematical, constructivist and instrumental practices of science. It begins with Ancient Greek science, as one of the first self-conscious, comprehensive and well-documented scientific endeavors at the global level. The numerous contributions of the Greeks, in philosophy, mathematics, geometry, geography and astronomy, momentous as they were, were fruits of leisure rather than industry. It then examines the history of science in China and China’s exchanges with India and Islam. A systematic and collaborative scientific effort is the hallmark of Chinese science. The contributions of the Chinese in medicine, printing, manufacturing and navigation invariably predate and outshine those of western contemporaries. Attention then shifts to the age of oceanic discoveries, which created the inexorable presuppositions for the genesis of global trade and a world system. From the inner organs of the organisms to the outer regions of Earth, Renaissance science was ubiquitous. The importance of inter-cultural scientific syncretism is highlighted, with the Iberian Peninsula as meeting point and crossroad of mutual affection between Arab, Jewish and European culture. Discoveries and inventions in metallurgy, electromagnetism and the science of petroleum set the scientific basis for the industrial revolution. The logic of the industrial revolution dictates developments in information technologies that culminate with the invention of modern computers. A dedicated chapter on the history of modern scientific conceptions of the universe showcases the subtle links in the fabric of seminal ideas in physics and astronomy. The book concludes with some reflections on the relationship between philosophy and the history of science. Following Kuhn and Latour, this discussion centers on the characteristics of continuities, ruptures and paradigmatic transitions in science.
Landmarks in the History of Science is a concise history of science from a global and macro-historical standpoint. It is an account of grand theoretical revolutions, such as heliocentrism, atomism, and relativity. But, more importantly, it is also a story of the methodological transitions to the experimental, mathematical, constructivist and instrumental practices of science. It begins with Ancient Greek science, as one of the first self-conscious, comprehensive and well-documented scientific endeavors at the global level. The numerous contributions of the Greeks, in philosophy, mathematics, geometry, geography and astronomy, momentous as they were, were fruits of leisure rather than industry. It then examines the history of science in China and China's exchanges with India and Islam. A systematic and collaborative scientific effort is the hallmark of Chinese science. The contributions of the Chinese in medicine, printing, manufacturing and navigation invariably predate and outshine those of western contemporaries. Attention then shifts to the age of oceanic discoveries, which created the inexorable presuppositions for the genesis of global trade and a world system. From the inner organs of the organisms to the outer regions of Earth, Renaissance science was ubiquitous. The importance of inter-cultural scientific syncretism is highlighted, with the Iberian Peninsula as meeting point and crossroad of mutual affection between Arab, Jewish and European culture. Discoveries and inventions in metallurgy, electromagnetism and the science of petroleum set the scientific basis for the industrial revolution. The logic of the industrial revolution dictates developments in information technologies that culminate with the invention of modern computers. A dedicated chapter on the history of modern scientific conceptions of the universe showcases the subtle links in the fabric of seminal ideas in physics and astronomy. The book concludes with some reflections on the relationship between philosophy and the history of science. Following Kuhn and Latour, this discussion centers on the characteristics of continuities, ruptures and paradigmatic transitions in science.
At once far flung and intimate, a fascinating look at how finding our way make us human. "A marvel of storytelling." —Kirkus (Starred Review) In this compelling narrative, O'Connor seeks out neuroscientists, anthropologists and master navigators to understand how navigation ultimately gave us our humanity. Biologists have been trying to solve the mystery of how organisms have the ability to migrate and orient with such precision—especially since our own adventurous ancestors spread across the world without maps or instruments. O'Connor goes to the Arctic, the Australian bush and the South Pacific to talk to masters of their environment who seek to preserve their traditions at a time when anyone can use a GPS to navigate. O’Connor explores the neurological basis of spatial orientation within the hippocampus. Without it, people inhabit a dream state, becoming amnesiacs incapable of finding their way, recalling the past, or imagining the future. Studies have shown that the more we exercise our cognitive mapping skills, the greater the grey matter and health of our hippocampus. O'Connor talks to scientists studying how atrophy in the hippocampus is associated with afflictions such as impaired memory, dementia, Alzheimer’s Disease, depression and PTSD. Wayfinding is a captivating book that charts how our species' profound capacity for exploration, memory and storytelling results in topophilia, the love of place. "O'Connor talked to just the right people in just the right places, and her narrative is a marvel of storytelling on its own merits, erudite but lightly worn. There are many reasons why people should make efforts to improve their geographical literacy, and O'Connor hits on many in this excellent book—devouring it makes for a good start." —Kirkus Reviews
Brimming with fascinating and fun facts about 100 scientific breakthroughs, this collection presents the real stories behind the history of science, at the same time offering a panoramic overview of the history of science and an introduction to some of the most important scientists in history. Grades 6 and up. Throughout history, science has changed lives and dramatically altered the way in which the universe is perceived. Focusing on the 100 most significant scientific events of all time—from Archimedes' discovery of the two fundamental principles underlying physics and engineering (levers and buoyancy) in 260 B.C.E. to human anatomy, Jupiter's moons, electrons, black holes, the human genome, and more—storyteller Kendall Haven has created a ready reference for those seeking information on science discoveries.
Advances in genetics over the past 50 years have been dramatically changed the understanding and management of inherited disorders, and are beginning to have a major impact on the practice of medicine overall. The rapidity of these advances means that clinicians and scientists in the field are often unfamiliar with the key research that has led to many developments that now are accepted and familiar. Few have time to search or the original papers, which are scattered and often difficult to obtain. This collection has been edited mainly for medical geneticists and genetics researchers who wish to learn more about how their field originated and developed. Brief, clearly written commentaries on each paper and section place the work in its current context and serve to unify the different parts of the book. They also help make it a readable and authoritative source of information. The papers chosen fall into several groups. First are classic descriptions of important genetic disorders, often from the pre-mendelian era. The following sections deal with the definition of human mendelian inheritance, the origins of human cytogenetics, the early development of the human gene map and the transition from biochemical genetics to human molecular genetics, the relatively recent studies that have shown how mendelian principles are increasingly modifiable, and finally advances in the treatment and management of genetic disorders, which are placed in their social context.
SHORTLISTED FOR THE SAMUEL JOHNSON PRIZE SHORTLISTED FOR THE WAINWRIGHT PRIZE From the bestselling author of UNDERLAND, THE OLD WAYS and THE LOST WORDS 'Few books give such a sense of enchantment; it is a book to give to many, and to return to repeatedly' Independent 'Enormously pleasurable, deeply moving. A bid to save our rich hoard of landscape language, and a blow struck for the power of a deep creative relationship to place' Financial Times 'A book that ought to be read by policymakers, educators, armchair environmentalists and active conservationists the world over' Guardian 'Gorgeous, thoughtful and lyrical' Independent on Sunday 'Feels as if [it] somehow grew out of the land itself. A delight' Sunday Times Discover Robert Macfarlane's joyous meditation on words, landscape and the relationship between the two. Words are grained into our landscapes, and landscapes are grained into our words. Landmarks is about the power of language to shape our sense of place. It is a field guide to the literature of nature, and a glossary containing thousands of remarkable words used in England, Scotland, Ireland and Wales to describe land, nature and weather. Travelling from Cumbria to the Cairngorms, and exploring the landscapes of Roger Deakin, J. A. Baker, Nan Shepherd and others, Robert Macfarlane shows that language, well used, is a keen way of knowing landscape, and a vital means of coming to love it.
Reviews and discusses the research studies of self-healing, CAM and bioenergy therapies in less detail, with explanations appropriate for lay readers. It is not referenced as extensively as the Professional edition. An additional chapter provides many self-healing approaches and exercises. Learn how the body and mind work together in health and illness, and how to use new and ancient wholistic mind-body techniques to heal physical and psychological problems. Explore techniques used for self-healing; Learn about biological energy medicine from Acupuncture to Yoga; Learn the interactions of biological energies with environmental energies; See research in unconventional energies and their relevance to healing.
With all of the new developments in information storage and retrieval, researchers today need a clear and comprehensive overview of the full range of their options, both online and offline, for finding the best information quickly. In this third edition of The Oxford Guide to Library Research, Thomas Mann maps out an array not just of important databases and print sources, but of several specific search techniques that can be applied profitably in any area of research. From academic resources to government documents to manuscripts in archives to business Web sites, Mann shows readers how best to exploit controlled subject headings, explains why browsing library shelves is still important in an online age, demonstrates how citation searching and related record searching produce results far beyond keyword inquiries, and offers practical tips on making personal contacts with knowledgeable people. Against the trendy but mistaken assumption that everything can be found on the Internet, Mann shows the lasting value of physical libraries and the unexpected power of traditional search mechanisms, while also providing the best overview of the new capabilities of computer indexing. Throughout the book Mann enlivens his advice with real-world examples derived from his experience of having helped thousands of researchers, with interests in all subjects areas, over a quarter century. Along the way he provides striking demonstrations and powerful arguments against those theorists who have mistakenly announced the demise of print. Essential reading for students, scholars, professional researchers, and laypersons, The Oxford Guide to Library Research offers a rich, inclusive overview of the information field, one that can save researchers countless hours of frustration in the search for the best sources on their topics.