Empfehlungen basierend auf "The Language Instinct: How the Mind Creates Language (Perennial Classics)"

The million copy international bestseller, critically acclaimed and translated into over 25 languages.As influential today as when it was first published, The Selfish Gene has become a classic exposition of evolutionary thought. Professor Dawkins articulates a gene's eye view of evolution - a view giving centre stage to these persistent units of information, and in which organisms can be seen as vehicles for their replication. This imaginative, powerful, and stylistically brilliant work not only brought the insights of Neo-Darwinism to a wide audience, but galvanized the biology community, generating much debate and stimulating whole new areas of research. Forty years later, its insights remain as relevant today as on the day it was published.This 40th anniversary edition includes a new epilogue from the author discussing the continuing relevance of these ideas in evolutionary biology today, as well as the original prefaces and foreword, and extracts from early reviews.Oxford Landmark Science books are 'must-read' classics of modern science writing which have crystallized big ideas, and shaped the way we think.

'One of the best books on evolutionary biology for a broad readership ever written' Edward O. WilsonA dazzling tour of evolution in action that sheds light on one of the greatest debates in scienceThe natural world is full of fascinating instances of convergence: phenomena like eyes and wings and tree-climbing lizards that have evolved independently, multiple times. Convergence suggests that evolution is predictable, and if we could replay the tape of life, we would get the same outcome. But there are also many examples of contingency, cases where the tiniest change - a random mutation or an ancient butterfly sneeze - caused evolution to take a completely different course.In Improbable Destinies, renowned researcher Jonathan Losos reveals what the latest breakthroughs in evolutionary biology tell us about one of the greatest ongoing debates in science. Evolution can occur far more rapidly than Darwin expected, which has opened the door to something that was previously thought impossible: experimental studies of evolution in nature. Drawing on his own work with anole lizards on the Caribbean islands, as well as studies of guppies, foxes, field mice and others being conducted around the world, Losos reveals just how rapid and predictable evolution can be.By charting the discoveries of the scientists who are rewriting our understanding of evolutionary biology, Improbable Destinies will change the way we think and talk about evolution.

"In the last decade, the science of understanding the human brain and replicating its most complicated processes through artificial intelligence has grown exponentially. Intricate neurological functions ranging from writing poetry to crafting original articles, arenas that had long been thought of as science fiction, have become our reality. And yet, large gaps remain in what AI can achieve--gaps that, as pioneering artificial intelligence entrepreneur Max Bennett argues compellingly, exist because there is still too much we don't understand about our own brains. Finding these answers requires diving into the long billion-year history of how animal brains emerged from matter; a history filled with countless half-starts, calamities, opportunities, and clever innovations. Not only do our brains have a story to tell--in fact the future of AI depends on it. Now, in A Brief History of Brains, Bennett bridges the gap between neuroscience and AI to tell the brain's evolutionary story, while demonstrating how understanding that story will shape the next generation of great AI breakthroughs. Deploying fresh perspective and lively storytelling, Bennett sheds long overdue light on evolutionary neuroscience, a historically small scientific field that holds the keys to the biggest secrets in AI. Working with support from many of the top minds in the field, Bennett consolidates four billion years into an approachable new model, identifying the Five Breakthroughs that mark the brain's most important evolutionary leaps. As we go back further in time, brains get much simpler and behavior gets much simpler, making it easier to understand these ancient brains and the complexity that emerges at each subsequent iteration. As each breakthrough brings new insight to the biggest mysteries of human development, it also contains fascinating corollaries to developments in AI, showing where our technological skill has matched the brain's evolution and where the missing links continue to hold us back. Indeed, until we understand and embrace every part of our brain's journey, parts of AI--including ones that we need to grow and evolve--will remain elusive. Endorsed and lauded by the brightest and best neuroscientists in the field today, Bennett's work synthesizes the most relevant scientific knowledge and cutting-edge research to create an easy-to-understand and riveting evolutionary story. With sweeping scope and stunning insights, A Brief History of Brains proves that understanding the arc of our brain's history can unlock the tools for successfully navigating our technological future"--

"I found this book amazing.I read it through quickly because it was so interesting, then turned around and read much of it again."—Daniel Kahneman, winner of the Nobel Prize in Economics and bestselling author of Thinking Fast & Slow"I've been recommending A Brief History of Intelligence to everyone I know. A truly novel, beautifully crafted thesis on what intelligence is and how it has developed since the dawn of life itself."—Angela Duckworth, bestselling author of GritEqual parts Sapiens, Behave, and Superintelligence, but wholly original in scope, A Brief History of Intelligence offers a paradigm shift for how we understand neuroscience and AI. Artificial intelligence entrepreneur Max Bennett chronicles the five "breakthroughs" in the evolution of human intelligence and reveals what brains of the past can tell us about the AI of tomorrow.In the last decade, capabilities of artificial intelligence that had long been the realm of science fiction have, for the first time, become our reality. AI is now able to produce original art, identify tumors in pictures, and even steer our cars. And yet, large gaps remain in what modern AI systems can achieve—indeed, human brains still easily perform intellectual feats that we can't replicate in AI systems. How is it possible that AI can beat a grandmaster at chess but can't effectively load a dishwasher? As AI entrepreneur Max Bennett compellingly argues, finding the answer requires diving into the billion-year history of how the human brain evolved; a history filled with countless half-starts, calamities, and clever innovations. Not only do our brains have a story to tell—the future of AI may depend on it.Now, in A Brief History of Intelligence, Bennett bridges the gap between neuroscience and AI to tell the brain's evolutionary story, revealing how understanding that story can help shape the next generation of AI breakthroughs. Deploying a fresh perspective and working with the support of many top minds in neuroscience, Bennett consolidates this immense history into an approachable new framework, identifying the "Five Breakthroughs" that mark the brain's most important evolutionary leaps forward. Each breakthrough brings new insight into the biggest mysteries of human intelligence. Containing fascinating corollaries to developments in AI, A Brief History of Intelligence shows where current AI systems have matched or surpassed our brains, as well as where AI systems still fall short. Simply put, until AI systems successfully replicate each part of our brain's long journey, AI systems will fail to exhibit human-like intelligence.Endorsed and lauded by many of the top neuroscientists in the field today, Bennett's work synthesizes the most relevant scientific knowledge and cutting-edge research into an easy-to-understand and riveting evolutionary story. With sweeping scope and stunning insights, A Brief History of Intelligence proves that understanding the arc of our brain's history can unlock the tools for successfully navigating our technological future.

“Ridley leaps from chromosome to chromosome in a handy summation of our ever increasing understanding of the roles that genes play in disease, behavior, sexual differences, and even intelligence. . . . . He addresses not only the ethical quandaries faced by contemporary scientists but the reductionist danger in equating inheritability with inevitability.” — The New YorkerThe genome's been mapped. But what does it mean? Matt Ridley’s Genome is the book that explains it all: what it is, how it works, and what it portends for the futureArguably the most significant scientific discovery of the new century, the mapping of the twenty-three pairs of chromosomes that make up the human genome raises almost as many questions as it answers. Questions that will profoundly impact the way we think about disease, about longevity, and about free will. Questions that will affect the rest of your life.Genome offers extraordinary insight into the ramifications of this incredible breakthrough. By picking one newly discovered gene from each pair of chromosomes and telling its story, Matt Ridley recounts the history of our species and its ancestors from the dawn of life to the brink of future medicine. From Huntington's disease to cancer, from the applications of gene therapy to the horrors of eugenics, Ridley probes the scientific, philosophical, and moral issues arising as a result of the mapping of the genome. It will help you understand what this scientific milestone means for you, for your children, and for humankind.

For readers of Bill Bryson, Neil deGrasse Tyson and Siddhartha Mukherjee, a wondrous, wildly ambitious, and vastly entertaining work of popular science that tells the awe-inspiring story of the elements that make up the human body, and how these building blocks of life travelled billions of miles and across billions of years to make us who we are.Every one of us contains a billion times more atoms than all the grains of sand in the earth's deserts. If you weigh 150 pounds, you've got enough carbon to make 25 pounds of charcoal, enough salt to fill a saltshaker, enough chlorine to disinfect several backyard swimming pools, and enough iron to forgea 3-inch nail. But how did these elements combine to make us human?All matter—everything around us and within us—has an ultimate birthday: the day the universe was born. This informative, eye-opening, and eminently readable book is the story of our atoms' long strange journey from the Big Bang to the creation of stars, through the assembly of Planet Earth, and the formation of life as we know it. It's also the story of the scientists who made groundbreaking discoveries and unearthed extraordinary insights into the composition of life. Behind their unexpected findings were investigations marked by fierce rivalries, obsession, heartbreak, flashes of insight, and flukes of blind luck. Ultimately they've helped us understand the mystery of our existence: how a quadrillion atoms made of particles from the Big Bang now animate each of our cells.Shaped by the curious mind and bold vision of science and history documentarian Dan Levitt, this wondrous book is no less than the story of life itself.

This work assesses Darwin's theory of evolution and looks at why it arises such heated debate among scientists, philosophers and sociologists. The book aims to show that Darwinism does not devalue the miracles of life.

Explains the meaning and application of chaos--the study of patterns emerging from seemingly random phenomena--and introduces the scientists responsible for major discoveries in this field

'Absorbing, mind-enlarging, studded with insights ... This could have significant real-world results' Sunday TimesHumanity's greatest feat is our incredible ability to learn. Even in their first year, infants acquire language, visual and social knowledge at a rate that surpasses the best supercomputers. But how, exactly, do our brains learn?In How We Learn, leading neuroscientist Stanislas Dehaene delves into the psychological, neuronal, synaptic and molecular mechanisms of learning. Drawing on case studies of children who learned despite huge difficulty and trauma, he explains why youth is such a sensitive period, during which brain plasticity is maximal, but also assures us that our abilities continue into adulthood. We can all enhance our learning and memory at any age and 'learn to learn' by taking maximal advantage of the four pillars of the brain's learning algorithm: attention, active engagement, error feedback and consolidation.The human brain is an extraordinary machine. Its ability to process information and adapt to circumstances by reprogramming itself is unparalleled, and it remains the best source of inspiration for recent developments in artificial intelligence. How We Learn finds the boundary of computer science, neurobiology, cognitive psychology and education to explain how learning really works and how to make the best use of the brain's learning algorithms - and even improve them - in our schools and universities as well as in everyday life.

The New York Times bestselling author of Darwin’s Doubt and Intelligent Design scholar presents groundbreaking scientific evidence of the existence of God, based on breakthroughs in physics, cosmology, and biology. In 2004, Stephen C. Meyer, one of the preeminent scientists studying the origins of life, ignited a firestorm of media and scientific controversy when a biology journal at the Smithsonian Institution published his peer-reviewed article advancing the theory of Intelligent Design. Then, in his two bestselling books, Signature in the Cell and Darwin’s Doubt, he helped unravel a mystery that Charles Darwin did not address: how did life begin? and offered further scientific proof to bolster his arguments on the history of life and our origins, concluding that life was designed.In those previous books, Meyer purposely refrained from attempting to answer questions about “who” might have designed life. Now, in The Return of the God Hypothesis, he brings his ideas full circle, providing a reasoned and evidence-based answer to the ultimate mystery of the universe, drawn from recent scientific discoveries in physics, cosmology, and biology. Meyer uses three scientific points to refute popular arguments put forward by the “New Atheists” against the existence of God:The evidence from cosmology showing that the material universe had a beginning.The evidence from physics showing that, from the beginning, the universe was been “finely tuned” to allow for the possibility of life.The evidence from biology showing that since the universe came into being, large amounts of genetic information present in DNA must have arisen to make life possible.In analyzing the evidence from these three fields, Meyer reveals how the data support not just the existence of an intelligent designer of some kind—but the existence of a theistic creator.