Medicine, anatomy, astronomy, mathematics and cosmology, science began with the Greeks, and Plato, Aristotle, Pythagoras, Archimedes and Hippocrates were amongst its stars. That man ever managed to develop a 'scientific' attitude to the natural world at all is one of the true wonders of human thought. Eureka! shows how, free from intellectual and religious dogma, these early thinkers rejected myths and capricious gods and, in distinguishing between the natural and supernatural, effectively discovered nature. Andrew Gregory, Professor of History and Philosophy of Science at University College London, unravels the genesis of science in this fascinating exploration of the origins of Western civilisation, and our desire for a rational, legitimating system of the world.
That man ever managed to develop to 'scientific' attitude to the natural world is one of true wonders of human thought. And answering the question of where and how this attitude began can help us understand the world we live in and the science that governs it. Science began with the Greeks. But is Greek science something we would recognise today? This superbly approachable book has won many plaudits since publication late in 2001.
In a book perfect for readers of Charles Duhigg’s The Power of Habit, David Eagleman’s Incognito, and Leonard Mlodinow’s Subliminal, the cognitive neuroscientists who discovered how the brain has aha moments—sudden creative insights—explain how they happen, when we need them, and how we can have more of them to enrich our lives and empower personal and professional success. Eureka or aha moments are sudden realizations that expand our understanding of the world and ourselves, conferring both personal growth and practical advantage. Such creative insights, as psychological scientists call them, were what conveyed an important discovery in the science of genetics to Nobel laureate Barbara McClintock, the melody of a Beatles ballad to Paul McCartney, and an understanding of the cause of human suffering to the Buddha. But these moments of clarity are not given only to the famous. Anyone can have them. In The Eureka Factor, John Kounios and Mark Beeman explain how insights arise and what the scientific research says about stimulating more of them. They discuss how various conditions affect the likelihood of your having an insight, when insight is helpful and when deliberate methodical thought is better suited to a task, what the relationship is between insight and intuition, and how the brain’s right hemisphere contributes to creative thought. Written in a lively, engaging style, this book goes beyond scientific principles to offer productive techniques for realizing your creative potential—at home and at work. The authors provide compelling anecdotes to illustrate how eureka experiences can be a key factor in your life. Attend a dinner party with Christopher Columbus to learn why we need insights. Go to a baseball game with the director of a classic Disney Pixar movie to learn about one important type of aha moment. Observe the behind-the-scenes arrangements for an Elvis Presley concert to learn why the timing of insights is crucial. Accessible and compelling, The Eureka Factor is a fascinating look at the human brain and its seemingly infinite capacity to surprise us. Praise for The Eureka Factor “Delicious . . . In The Eureka Factor, neuroscientists John Kounios and Mark Beeman give many other examples of [a] kind of lightning bolt of insight, but back this up with the latest brain-imaging research.”—Newsweek “An incredible accomplishment . . . [The Eureka Factor] is not just a chronicle of the journey that numerous scientists (including the authors) have taken to examine insight but is also a fascinating guide to how advances in science are made in general. Messrs. Kounios and Beeman examine how a parade of clever experiments can be designed to answer specific questions and rule out alternative possibilities. . . . Wonderful ideas appear as if out of nowhere—and we are delighted.”—The Wall Street Journal “An excellent title for those interested in neuroscience or creativity . . . The writing is engaging and readable, mixing stories of famous perceptions with explanations of how such revelations happen.”—Library Journal (starred review) “A lively and accessible ‘brain’ book with wide appeal.”—Booklist “[An] ingenious, thoughtful update on how the mind works.”—Kirkus Reviews “The Eureka Factor presents a fascinating and illuminating account of the creative process and how to foster it.”—James J. Heckman, Nobel laureate in economics
The history of the computer is entwined with that of the modern world and most famously with the life of one man, Alan Turing. How did this device, which first appeared a mere 50 years ago, come to structure and dominate our lives so totally? An enlightening mini-biography of a brilliant but troubled man.
From Musa al-Khwarizmi who developed algebra in 9th century Baghdad to al-Jazari, a 13th-century Turkish engineer whose achievements include the crank, the camshaft and the reciprocating piston, Science and Islam tells the story of one of history’s most misunderstood yet rich and fertile periods in science: the extraordinary Islamic scientific revolution between 700 and 1400 CE.
Having escaped domestic servitude in Germany by teaching herself to sing, and established a career in England, Caroline Herschel learned astronomy while helping her brother William, then Astronomer Royal. Soon making scientific discoveries in her own right, she swept to international scientific and popular fame. She was awarded a salary by George III in 1787 – the first woman in Britain to make her living from science. But, as a woman in a male-dominated world, Herschel's great success was achieved despite constant frustration of her ambitions. Drawing on original sources – including Herschel's diaries and her fiery letters – Claire Brock tells the story of a woman determined to win independence and satisfy her astronomical ambition.
Long before the European Enlightenment, scholars and researchers working from Samarkand in modern-day Uzbekistan to Cordoba in Spain advanced our knowledge of astronomy, chemistry, engineering, mathematics, medicine and philosophy. From Musa al-Khwarizmi who developed algebra in 9th century Baghdad to al-Jazari, a 13th-century Turkish engineer whose achievements include the crank, the camshaft and the reciprocating piston, Ehsan Masood tells the amazing story of one of history's most misunderstood yet rich and fertile periods in science, via the scholars, research, and science of the Islamic empires of the middle ages.
When it comes to science, too often people say "I just don't have the brains for it"--and leave it at that. Why is science so intimidating, and why do people let themselves feel this way? What makes one person a scientist and another disinclined even to learn how to read graphs? The idea that scientists are people who wear lab coats and are somehow smarter than the rest of us is a common, yet dangerous, misconception that puts science on an intimidating pedestal. How did science become so divorced from everyday experience? In Eureka, science popularizer Chad Orzel argues that even the people who are most forthright about hating science are doing science, often without even knowing it. Orzel shows that science is central to the human experience: every human can think like a scientist, and regularly does so in the course of everyday activities. The common misconception is that science is a body of (boring, abstract, often mathematical) facts. In truth, science is a process: Looking at the world, Thinking about what makes it work, Testing your mental model by comparing it to reality, and Telling others about your results--all things that people do daily. By revealing the connection between the everyday activities that people do--solving crossword puzzles, playing sports, or even watching mystery shows on television--and the processes used to make great scientific discoveries, Eureka shows that this process is one everybody uses regularly, and something that anyone can do.
In this illuminating book Andrew Gregory takes an original approach to Plato's philosophy of science by reassessing Plato's views on how we might investigate and explain the natural world. He demonstrates that many of the common charges against Plato - disinterest, ignorance, dismissal of observation - are unfounded, and shows instead that Plato had a series of important and cogent criticisms to make of the early atomists and other physiologoi. Plato's views on science, and on astronomy and cosmology in particular, are shown to have developed in interesting ways. Thus, the book argues, Plato can best be seen as a philosopher struggling with the foundations of scientific realism, and as someone, moreover, who has interesting epistemological, cosmological and nomological reasons for his approach. Plato's Philosophy of Science is important reading for all those with an interest in Ancient Philosophy and the History of Science.
