George Washington Hayduke, an ex-Green Beret, gathers his friends, the Monkey Wrench Gang, to oppose developers and the world's largest earth-moving machine
John Tyndall (1820–93) was an Irish physicist who became fascinated by mountaineering after a scientific expedition to Switzerland in 1856. He traversed the summit of the Matterhorn in 1868 and climbed Mount Blanc three times. Alongside this love of mountains was a scientific interest in glaciers and ice formations. Tyndall was also well-regarded for his ability to communicate with the public about science. Many of his books, such as this one, published in 1872 as part of the International Scientific Series, are aimed at the general reader. Tyndall uses this work to explain many aspects of water, beginning with cloud formation and rain before moving on to ice, snow and glaciers. He also discusses the principles behind phenomena ranging from tropical rains to glacial movement. Illustrated and organised into 493 different points under themed headings, this book gives clear explanations of the complexity of the earth's water system.
A gorgeous and evocative story of how the animals got their colours, from Carnegie Medal-winner Tanya Landman and V&A Illustration Award winner Laura Carlin. The earth was young and full of colour. But the animals were dull and drab.The painter decided: something must be done! With dabs and sweeps the painter's brush creates the stripes on the zebra, the sharp suit of the penguin and the bright splashes on parrots. But what can he give the nightingale when his paintbox has run dry? A beautiful and gently moving tale from the award-winning Tanya Landman and Laura Carlin.
How do you remember more and forget less?How can you earn more and become more creative just by moving house? And how do you pack a car boot most efficiently? Mathematics is full of better ways of thinking, and with over 2,000 years of knowledge to draw on, Oxford mathematician Marcus du Sautoy interrogates his passion for shortcuts in this fresh and fascinating guide. After all, shortcuts have enabled so much of human progress, whether in constructing the first cities around the Euphrates 5,000 years ago, using calculus to determine the scale of the universe or in writing today’s algorithms that help us find a new life partner. As well as looking at the most useful shortcuts in history – such as measuring the circumference of the earth in 240 BC to diagrams that illustrate how modern GPS works – Marcus also looks at how you can use shortcuts in investing or how to learn a musical instrument to memory techniques. He talks to, among many, the writer Robert MacFarlane, cel
Take a journey from the distant past into a future to be imagined with this gorgeous debut picture book whose gradated pages reflect the passage of time.Hundreds of millions of years ago, land took shape. Millions of years ago, dinosaurs lived on Earth. Thousands of years ago, people built towering pyramids. Ten years ago, the landscape looked different. A month ago, it was still summer. A minute ago, the light was turned off. Now! Make a wish! What will you be doing in a week? How will you celebrate your birthday next year? What will you discover when you are older? What will hold you in awe forever? Moving inexorably from an age primeval into a future filled with questions, Johanna Schaible brings her beautiful collage artwork to an exploration of time that melds a conceptual vision with a physical one. With each page turn, the pages gradually become smaller—showing more and more borders from the past—until they reach the present moment, then grow larger again as time expands into a
In this passionate philosophical memoir, Kimerer LaMothe unfolds an earth-friendly vision of what love can be. Moving to a farm after years spent teaching and writing at Harvard University, LaMothe fa
The ground beneath your feet is solid, right? After all, how could we build houses and bridges if the land was moving all the time? Actually, the ground beneath us really is moving very slowly all the
The ground beneath your feet is solid, right? After all, how could we build houses and bridges if the land was moving all the time? Actually, the ground beneath us really is moving very slowly all the
Big History seeks to retell the human story in light of scientific advances by such methods as radiocarbon dating and genetic analysis. This book provides a deep, causal view of the forces that have shaped the universe, the earth, and humanity. Starting with the Big Bang and the formation of the earth, it traces the evolutionary history of the world, focusing on humanity's origins. It also explores the many natural forces shaping humanity, especially the evolution of the brain and behaviour. Moving through time, the causes of such important transformations as agriculture, complex societies, the industrial revolution, the enlightenment, and modernity are placed in the context of underlying changes in demography, learning, and social organization. Humans are biological creatures, operating with instincts evolved millions of years ago, but in the context of a rapidly changing world, and as we try to adapt to new circumstances, we must regularly reckon with our deep past.
Join David J. Eicher in this fast-paced and entertaining journey through the history, present, and future of these important yet mysterious cosmic bodies. From ancient times, humans have been fascinated by 'broom stars' and 'blazing scimitars' lighting up the sky and moving against the fixed background of stars. The Great Comets of our time still receive in-depth attention - ISON, Hale-Bopp, Hyakutake, West, and others - while recent spacecraft encounters offer amazing insight into the earliest days of the solar system. In this guide you will discover the cutting-edge science of what comets are, how they behave, where they reside, how groups of comets are related, and much more. The author carefully explores the ideas relating comets and life on Earth - and the danger posed by impacts. He finishes with practical, how-to techniques, tips, and tricks on how to successfully observe comets and even to capture your own images of them.
About Grief is a refreshingly down-to-earth book about an issue that blindsides many people. Written in a warm and conversational way that is, at times, deeply moving, at times, surprisingly amusing,
"Earth is constantly moving. Earth is also constantly recycling its resources. Water, oxygen, rocks, and carbon are just a few of the resources that are always moving through a cycle on our planet. Al
An epic tale that pits a son against the legacy of his family's desecration of the earth, and his own father's more personal violations, Jim Harrison's True North is a beautiful and moving novel that
This concise and highly illustrated textbook traces the evolution of the Cosmos from the Big Bang to the development of intelligent life on Earth, conveying clear science in an engaging narrative. By mapping the history of the Universe for introductory science and astrobiology courses for non-science majors, this book allows many of the most fascinating questions in science to be explored. What is the origin of the Universe? How do stars and planets form? How does life begin? How did intelligence arise? Are we alone in the Cosmos? Physics, chemistry, biology, astronomy and geology are combined to create a chronicle of events in which the swirling vapors in the primordial cloud of the Universe evolved over billions of years into conscious life. Outlining, the latest discoveries in astrobiology, this textbook is suffused with the excitement of this fast-moving field. Instructor and student support is provided at www.cambridge.org/jastrow.
From 250 to 150 B.C., the Adena people constructed a burial mound by moving 60,000 tons of earth. The resulting formation, the largest conical burial mound in the country, is located in the middle of
Introduction to the Physics of the Earth's Interior describes the structure, composition and temperature of the deep Earth in one comprehensive volume. The book begins with a succinct review of the fundamentals of continuum mechanics and thermodynamics of solids, and presents the theory of lattice vibration in solids. It introduces the various equations of state, moving on to a discussion of melting laws and transport properties. The book closes with a discussion of current seismological, thermal and compositional models of the Earth. The new edition of this successful textbook has been enlarged and fully updated, taking into account the considerable experimental and theoretical progress recently made in understanding the inner structure of the Earth. Like the first edition, this will be a useful textbook for graduate and advanced undergraduate students in geophysics and mineralogy. It will also be of great value to researchers in earth sciences, physics and materials sciences.
Satellites as they cross the night sky look like moving stars, which can be accurately tracked by an observer with binoculars as well as by giant radars and large cameras. These observations help to determine the satellite's orbit, which is sensitive to the drag of the upper atmosphere and to any irregularities in the gravity field of the Earth. Analysis of the orbit can be used to evaluate the density of the upper atmosphere and to define the shape of the Earth. Desmond King-Hele was the pioneer of this technique of orbit analysis, and this book tells us how the research began, before the launch of Sputnik in 1957. For thirty years King-Hele and his colleagues at the Royal Aircraft Establishment, Farnborough, developed and applied the technique to reveal much about the Earth and air at a very modest cost. In the 1960s the upper-atmosphere density was thoroughly mapped out for 100 to 2000 km, revealing immense variation of density with solar activity and between day and night. In the 1
Planetary Science is an exciting, fast-moving, interdisciplinary field with courses taught in a wide range of departments, including astronomy, physics, chemistry, earth sciences and biology. Planets
Planetary Science is an exciting, fast-moving, interdisciplinary field with courses taught in a wide range of departments, including astronomy, physics, chemistry, earth sciences and biology. Planets
Introduction to the Physics of the Earth's Interior describes the structure, composition and temperature of the deep Earth in one comprehensive volume. The book begins with a succinct review of the fundamentals of continuum mechanics and thermodynamics of solids, and presents the theory of lattice vibration in solids. It introduces the various equations of state, moving on to a discussion of melting laws and transport properties. The book closes with a discussion of current seismological, thermal and compositional models of the Earth. The new edition of this successful textbook has been enlarged and fully updated, taking into account the considerable experimental and theoretical progress recently made in understanding the inner structure of the Earth. Like the first edition, this will be a useful textbook for graduate and advanced undergraduate students in geophysics and mineralogy. It will also be of great value to researchers in earth sciences, physics and materials sciences.
