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The authors take the reader through the history of the concept, technical design and economic practicalities of building an elevator to space, and, ultimately, the implications of what such a low cost transportation system would mean to society. Based on three years of NASA-funded studies and written for the technically literate layperson, Edwards and Westling discuss the recent technological advances that now make the space elevator feasible. They conclude by addressing the effects that the space elevator could have on mankind's future from communications and energy to colonizing space.
What is a space elevator? A space elevator is a physical connection from the surface of the Earth to a geostationary Earth orbit (GEO) above the Earth .35,786 km in altitude. Its center of mass is at the geostationary point such that it has a 24-hr orbit and stays over the same point above the equator as the Earth rotates on its axis. The vision is that a space elevator would be utilized as a transportation and utility system for moving people, payloads, power, and gases between the surface of the Earth and space. It makes the physical connection from Earth to space in the same way a bridge connects two cities across a body of water. The Earth to GEO space elevator is not feasible today, but could be an important concept for the future development of space in the latter part of the 21st century. It has the potential to provide mass transportation to space in the same way highways, railroads, power lines, and pipelines provide mass transportation across the Earth's surface. The low energy requirements for moving payloads up and down the elevator could make it possible to achieve cost to orbit
Under the editorship of David Raitt, this timely book brings together for the first time the record of people, places, developments and activities, in fiction and in fact, of the space elevator - a 100,000 km long, meter wide, ribbon reaching up from the Earth and into space along which robotic climbers that will travel to bring payloads into orbit at a fraction of the price of rocket launches. The chapters in the book cover the early pioneers who dreamt up the concept initially some 120 years ago; the work of modern day scientists and engineers who have developed the concept into doable plans; how the concept has been portrayed in novels, films and art; the conferences at which interested people could present and discuss their work and ideas; the global community that has grown up around space elevators and the competition challenges that have been held; and what the future may hold.
Michel van Pelt explains for the first time the principle of space tethers: what they are and how they can be used in space. He introduces non-technical space enthusiasts to the various possibilities and feasibility of space tethers including the technological challenges and potential benefits. He illustrates how, because of their inherent simplicity, space tethers have the potential to make space travel much cheaper, while ongoing advances in tether material technology may make even seemingly far-fetched ideas a reality in the not too distant future.
An easy guide to the most exciting development in space travel since the rocket. Stripped of the technical jargon, this is a laymans guide to the breathtaking developments surrounding the space elevator: a plan to string a 100,000 km from Earth to space, revolutionising space access.
The concept of a Space Elevator started over a century ago but started to move from science fiction to reality in the 1990s with the promising advent of a super strong material, carbon nanotubes, that theoretically had the strength to build a ribbon into space.NASA started investigating the concept which led to the publication of the first detailed analysis of whether it was possible, written by Dr Brad Edwards, in a NIAC paper.Early excitement of an immediate breakthrough, maybe even constructing one by 2010, gave way to the reality of producing carbon nanotubes of the required strength, outside the laboratory, in commercial quantities. As I write, in 2020, we are still awaiting this breakthrough and the project has moved back to the late 20s, maybe the 2030s or 2040s.But it will happen, and when it does, it will replace rockets as the easier and cheaper way to leave Earth, opening up space travel the way airplanes opened up world travel.This series examines the technical aspects and how it will be deployed.The first book in the Space Elevator 2020 series covers the history of this exciting project.
NEW YORK TIMES BESTSELLER Jason M. Hough’s pulse-pounding debut combines the drama, swagger, and vivid characters of Joss Whedon’s Firefly with the talent of sci-fi author John Scalzi. In the mid-23rd century, Darwin, Australia, stands as the last human city on Earth. The world has succumbed to an alien plague, with most of the population transformed into mindless, savage creatures. The planet’s refugees flock to Darwin, where a space elevator—created by the architects of this apocalypse, the Builders—emits a plague-suppressing aura. Skyler Luiken has a rare immunity to the plague. Backed by an international crew of fellow “immunes,” he leads missions into the dangerous wasteland beyond the aura’s edge to find the resources Darwin needs to stave off collapse. But when the Elevator starts to malfunction, Skyler is tapped—along with the brilliant scientist, Dr. Tania Sharma—to solve the mystery of the failing alien technology and save the ragged remnants of humanity. Praise for The Darwin Elevator “A hell of a fun book.”—James S. A. Corey, New York Times bestselling author of Abaddon’s Gate “[Jason M.] Hough’s first novel combines the rapid-fire action and memorable characters associated with Joss Whedon’s short-lived Firefly TV series with the accessibility and scientific acumen of [James S. A.] Corey’s ‘Expanse’ series.”—Library Journal (starred review) “The best part about alien stories is their mystery, and Jason Hough understands that like no other. Full of compelling characters and thick with tension, The Darwin Elevator delivers both despair and hope along with a gigantic dose of wonder. It’s a brilliant debut, and Hough can take my money whenever he writes anything from now on.”—Kevin Hearne, New York Times bestselling author of The Iron Druid Chronicles “Newcomer Hough displays a talent for imaginative plotting and realistic dialogue, and the brisk pacing and cliffhanger ending will keep readers enthralled and eagerly awaiting the next installment.”—Publishers Weekly “Jason M. Hough does a great job with this huge story. The world of Darwin and the Elevator is deliciously complex and satisfying. Skyler, Tania, and all the other characters are delightfully drawn and fun to spend time with. . . . The story unfolds with just the right balance of high adventure, espionage, humor, and emotional truth. . . . As soon as you finish, you’ll want more.”—Analog “A debut novel unlike any other . . . This is something special. Something iconic. The Darwin Elevator is full of majesty and wonder, mystery and mayhem, colorful characters and insidious schemes.”—SF Signal “Fun, action-packed and entertaining . . . a sure contender for science fiction debut of the year!”—Pat’s Fantasy Hotlist “Claustrophobic, intense, and satisfying . . . I couldn’t put this book down. The Darwin Elevator depicts a terrifying world, suspends it from a delicate thread, and forces you to read with held breath as you anticipate the inevitable fall.”—Hugh Howey, New York Times bestselling author of Wool
In the last year, the International Space Elevator Consortium assessed that basic technological needs can be met with current capabilities: and, each segment of the Space Elevator Transportation System is ready for engineering validation. Because of the availability of a new material as a potential Space Elevator tether, the community strongly believes that a Space Elevator will be initiated in the near term. Included in the book is a series of appendices that are tremendous references to the status of the space elevator today. Included are a lexicon of space elevator terms, over 750 references in the bibliography, short descriptions of eight ISEC year-long studies and two IAA 4-year studies on space elevators, as well as a summary of over 20 Architectural Notes covering the development of space elevator technologies.
Winner of the Nebula Award for Best Novel • Discover the novel that launched one of science fiction’s most beloved, acclaimed, and awarded trilogies: Kim Stanley Robinson’s masterly near-future chronicle of interplanetary colonization. “A staggering book . . . the best novel on the colonization of Mars that has ever been written.”—Arthur C. Clarke For centuries, the barren, desolate landscape of the red planet has beckoned to humankind. Now a group of one hundred colonists begins a mission whose ultimate goal is to transform Mars into a more Earthlike planet. They will place giant satellite mirrors in Martian orbit to reflect light onto its surface. Black dust sprinkled on the polar caps will capture warmth and melt the ice. And massive tunnels drilled into the mantle will create stupendous vents of hot gases. But despite these ambitious goals, there are some who would fight to the death to prevent Mars from ever being changed.
What Is Space Elevator One concept for a transportation system that would link planets to space is called a space elevator. A cable that is attached to the surface and extends into space would be the primary component of this system. Without the need for huge rockets, the architecture of the system would enable vehicles to ascend the cable from the surface of a planetary body, such as the surface of the Earth, and enter orbit directly. Because of the enormous weight, a space elevator based on Earth could not simply be a tall tower supported from below. Instead, it would consist of a cable with one end attached to the surface near the equator and the other end attached to a counterweight in space beyond geostationary orbit. This would allow the elevator to move between the surface and the counterweight. The opposing forces of gravity, which is stronger at the lower end, and the upward centrifugal force, which is stronger at the upper end, would result in the cable being held up, under tension, and stationary over a single position on Earth. Gravity is stronger at the lower end, while the upward centrifugal force is stronger at the upper end. After the tether has been deployed, climbers will be able to use mechanical methods to repeatedly ascend and descend the tether in order to release their payload into and out of orbit. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Space elevator Chapter 2: Interplanetary spaceflight Chapter 3: The Fountains of Paradise Chapter 4: Counterweight Chapter 5: Skyhook (structure) Chapter 6: Lunar space elevator Chapter 7: Megascale engineering Chapter 8: Yuri Artsutanov Chapter 9: Momentum exchange tether Chapter 10: Launch loop Chapter 11: Orbital ring Chapter 12: Globus Cassus Chapter 13: Space elevators in fiction Chapter 14: Specific strength Chapter 15: Gravity of Earth Chapter 16: Non-rocket spacelaunch Chapter 17: Space elevator safety Chapter 18: Space elevator construction Chapter 19: Space tether Chapter 20: Space elevator competitions Chapter 21: Hypothetical technology (II) Answering the public top questions about space elevator. (III) Real world examples for the usage of space elevator in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of space elevator' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of space elevator.