Charles Darwin was the epitome of the Victorian gentleman amateur scientist, living entirely off inherited wealth and the income from his books. At the same time, however, he was the most professional scientist of his day. Darwin's life is full of contrast. In his youth, he seemed likely to become a wastrel, yet he became a hard-working and renowned scientist. His family life in a small Kentish village was mostly idyllically happy; but the loss of his favourite daughter, Annie, brought him intense misery that lasted long after her death. Darwin shunned publicity; but he became the most famous scientist of his time, for an idea which shook the foundations of Victorian society. Even today, some people reject his idea - evolution by natural selection - without bothering to find out what Darwin said. But it is one of those great achievements of the human intellect with which everyone should be acquainted.
Covering an epic sweep of science, from the Greek philosophers right through to Einstein and his groundbreaking work, Mary and John Gribbin have written a compelling account of the personalities and events that lie behind the scientific milestones of history. Find out how a young Isaac Newton caused the first ever UFO scare while flying a home-made paper lantern and how Archimedes was so wrapped up in his work, he didn't notice that his city had been invaded by Romans. centuries have used and built on each other's knowledge in order to make their world changing discoveries. It also puts into perspective the incredible amount we have learnt about our universe in 2000 years.
Carl Linnaeus - Joseph Banks - Francis Masson - Carl Peter Thunberg - David Douglas - William Lobb - Thomas Lobb - Robert Fortune - Marianne North - Richard Spruce - Joseph Dalton Hooker.
The Remarkable Story of Darwin's Captain and the Invention of the Weather ForecastThe name of Robert FitzRoy, captain of the Beagle, is forever linked with that of his most famous passenger, Charles Darwin. This exceptionally interesting biography brings FitzRoy out of Darwin's shadow for the first time, revealing a man who experienced high adventure, suffered tragic disappointments, and-as the inventor of weather forecasting-saved the lives of countless fellow mariners.John and Mary Gribbin draw a detailed portrait of FitzRoy, recounting the wide range of his accomplishments and exploring the motivations that drove him. As a very young and successful commander in the British navy, FitzRoy's life was in the mold of a Patrick O'Brian novel. This biography focuses well-deserved attention on FitzRoy's status as a master scientist and seaman.
What if Newton had never lived? A compelling dual biography argues that Robert Hooke and Edmond Halley easily could have filled the giant's shoes--and deserve credit for the birth of modern science. Robert Hooke and Edmond Halley, whose place in history has been overshadowed by the giant figure of Newton, were pioneering scientists within their own right, and instrumental in establishing the Royal Society. Although Newton is widely regarded as one of the greatest scientists of all time and the father of the English scientific revolution, John and Mary Gribbin uncover the fascinating story of Robert Hooke and Edmond Halley, whose scientific achievements neatly embrace the hundred years or so during which science as we know it became established. They argue persuasively that, even without Newton, science would have made a great leap forward in the second half of the seventeenth century, headed by two extraordinary figures, Hooke and Halley.
In 1972, when James Lovelock first proposed the Gaia hypothesis--the idea that the Earth is a living organism that maintains conditions suitable for life--he was ridiculed by the scientific establishment. Today Lovelock's revolutionary insight, though still extremely controversial, is recognized as one of the most creative, provocative, and captivating scientific ideas of our time. James Lovelock tells for the first time the whole story of this maverick scientist's life and how it served as a unique preparation for the idea of Gaia. Drawing on in-depth interviews with Lovelock himself and unprecedented access to his private papers, John and Mary Gribbin paint an intimate and fascinating portrait of a restless, uniquely gifted freethinker. In a lifetime spanning almost a century, Lovelock has followed a career path that led him from chemistry, to medicine, to engineering, to space science. He worked for the British secret service and contributed to the success of the D-Day landings in World War II. He was a medical experimenter and an accomplished inventor. And he was working with NASA on methods for finding possible life on Mars when he struck upon the idea of Gaia, conceiving of the Earth as a vast, living, self-regulating system. Deftly framed within the context of today's mounting global-warming crisis, James Lovelock traces the intertwining trajectories of Lovelock's life and the famous idea it brought forth, which continues to provoke passionate debate about the nature and future of life on our planet.
President Franklin Delano Roosevelt said that “Thomas Jefferson, Benjamin Franklin, and Count Rumford are the greatest minds that America has produced,” and indeed, Rumford was a peer of theirs, and arguably contributed more to the scientific canon, and yet is nowhere near as well known. Born in the British Americas as Benjamin Thompson, he died a count and a knight, and lived a fascinating, eventful life in between, founding the Royal Institution in London, inventing a better chimney (still in widespread use) for open fires, finding time along the way to invent the coffee percolator and the enclosed oven, and most importantly pioneering our modern understanding of heat. White Knight, Red Heat tells the story of this notable figure in book form for the first time in over twenty years. Sir Benjamin Thompson, Count von Rumford, was an American-born British physicist, government administrator, and a founder of the Royal Institution of Great Britain, London. His investigations of heat overturned the theory that heat is a liquid form of matter and established the beginnings of the modern theory that heat is a form of motion. Loyal to the British crown, he served as a spy after the outbreak of the American Revolution, but in 1776 he was forced to flee to London, leaving his wife and daughter behind. Knighted by King George III in 1784, Thompson introduced numerous social reforms and brought James Watt’s steam engine into common use... He was created a Count of the Holy Roman Empire in 1791. Interest in gunpowder and weaponry stimulated his physical investigations, and in 1798 he began his studies of heat and friction, making one of the earliest measurements of the equivalence of heat and mechanical energy.
The definitive scientific icon of the twentieth century, Albert Einstein is remember for one equation, E=mc2, and the image of a white-haired, pipe-smoking professor who didn’t wear socks. But the equation comes from a time when all of his great work was done. The real Albert Einstein – the high school drop-out who won the Nobel Prize along with the hearts of so many young women – was young, handsome, dark haired and a natty dresser. And his greatest piece of work was so poorly understood at the time that the Nobel Committee, who couldn’t understand it, but in a panic felt they ought to give him a prize for something, honoured him for something else. An introduction, afterword and clear chronological table place Einstein’s work in the context of the development of scientific knowledge.
The amazing true science behind the fiction of His Dark Materials, ideal for fans of the original trilogy and The Book of Dust, with an introduction by Philip Pullman. Award-winning science writers Mary and John Gribbin reveal how the world of Pullman's His Dark Materials trilogy (Northern Lights, The Subtle Knife and The Amber Spyglass) is rooted in astonishing scientific truth. Drawing on string theory and spacetime, quantum physics and chaos theory, they answer fascinating questions such as: could parallel worlds like Will's and Lyra's really exist? How does the subtle knife cut through anything? Could there be a bomb like the one made with Lyra's hair? And, of course, what are the Dark Materials?
How big is infinity? How small is an electron? When will the Sun destroy the Earth? How fast is a nerve impulse in your brain? Why can't you see inside a black hole? What's the hottest temperature ever recorded on Earth? What's the furtherest you can see on a clear night? "From atoms to infinity' takes you on a journey from the furtherest reaches of the known Universe to the tiniest particles that make up life on Earth. With their characteristic flair and unrivalled clarity, world-renowned science authors Mary and John Gribbin explore how our telescopes can see 10 billion years into the past, and why a thimbleful of a neutron star would contains as much mass as all the people on Earth put together. Incredible and thought-provoking, this is a trip at break-neck speed from the infinitesimal to the vast - everything you always wanted to know about science's most amazing discoveries." -- back cover.
The theory of evolution by natural selection did not spring fully formed and unprecedented from the brain of Charles Darwin. The idea of evolution had been around, in various guises, since the time of Ancient Greece. And nor did theorizing about evolution stop with what Daniel Dennett called "Darwin’s dangerous idea." In this riveting new book, bestselling science writers John and Mary Gribbin explore the history of the idea of evolution, showing how Darwin's theory built on what went before and how it was developed in the twentieth century, through an understanding of genetics and the biochemical basis of evolution, into the so-called "modern synthesis" and beyond. Darwin deserves his recognition as the primary proponent of the idea of natural selection, but as the authors show, his contribution was one link in a chain that extends back into antiquity and is still being forged today.
Galileo Galilei (1564-1642) was the first scientist in the modern use of the term. Instead of relying on the works of Aristotle, he actually carried out experiments to test theories – legend has it that one of his experiments involved throwing weights off the Leaning Tower of Pisa. His astronomical observations with the telescope shattered the idea that the Earth was at the centre of the Universe, and led to his trial for heresy. He had a great lust for life, three children by a woman he never married, a biting, sarcastic with and the friendship of princes and (in spite of his run in with Pope Urban VIII) cardinals. An introduction, afterword and clear chronological table place Galileo’s work in the context of the development of scientific knowledge.
Renowned science writers John and Mary Gribbin team up with one of the most historic scientific sites in the world--the Royal Observatory, Greenwich--to take readers on a stunning visual tour of the universe. This riveting journey moves from our home planet outwards to the Moon, Sun, Inner and Outer Solar Systems, Milky Way, and other galaxies. Not only do the Gribbins discuss the always-intriguing topic of alien life, but they divulge little-known facts (Venus is the only planet in our solar system to rotate backwards), as well as all the basics beginning armchair astronomers need to know. Dramatic four-color photographs complement the informative text, giving readers a sense of what it might be like to be an astronaut...and go where no one has gone before.
The Gribbins relate the developments in 20th-century astronomy that have led to the shattering realization that all life is made of stardust scattered across the universe in great stellar explosions from supernovae. The authors eloquently explain how the physical structure of the universe has produced conditions ideal for life. 22 illustrations.
You have probably seen our moon, but did you know that some planets have lots of moons of their own? This book introduces children to the solar system.
Fire on Earth reveals that comets have been a continuing problem throughout geological time. It examines the controversial claims that there are 'periodic extinctions' of life on earth linked to a recurring cycle of cometary impacts
Isaac Newton is heralded as the father of British science and regarded as one of the greatest scientists of all time, but would we even remember him without the pioneering work of his contemporaries, Robert Hooke and Edmond Halley? Newton 'borrowed' many of Hooke's best ideas, including the principles which would form the foundation for his universal theory of gravity, which Hooke formulated long before Newton's mythological apple fell from the tree. Similarly, whilst Edmond Halley is remembered for the comet that bears his name, he, like Hooke, had several strings to his bow. Newton himself might have remained an obscure minor figure, had Halley not encouraged him to write the Principia and paid for its publication out of his own pocket. Out of the Shadow of a Giant shows that even without Newton science in Britain would have made a great leap forward during the scientific revolution in the seventeenth century, paving the way for the Royal Society and many more extraordinary developments"--Back cover.
Explains the genetic basis for comparing human and animal behavior, discusses the controversy surrounding sociobiology, and looks at sexual behavior, parental-child relations, and the nature of war
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