Topic
Space colonization
About: Space colonization is a research topic. Over the lifetime, 27 publications have been published within this topic receiving 166 citations. The topic is also known as: interstellar colonization & space settlement.
Papers
Book•
6 Sep 2003
TL;DR: Zimmermann as mentioned in this paper describes the great global gamesmanship between Russian and American political leaders that drove us to the stars, and draws on his vast store of knowledge about space travel, as well as hundreds of interviews with cosmonauts, astronauts, and scientists.
Abstract: Charged with the ever-present potential for danger and occasionally punctuated by terrible moments of disaster, the history of space exploration has been keenly dramatic. The recent disaster of the Space Shuttle Columbia was a sad but certain reminder that space travel is an extraordinarily dangerous occupation. Oddly enough, it often takes a tragic accident to remind us that we still have a presence in space. In the decades between triumph and tragedy we tend to ignore the fact that there have been scores of space pioneers who have risked their lives to explore our solar system. Indeed, the International Space Station is sometimes referred to as a /Alpha,a a moniker that implies that it is our first real permanent presence in space. But this notion is frowned upon by the Russians a " and for good reason. Prior to the construction of the controversial International Space Station, a host of daring Russian cosmonauts, and a smaller number of intrepid American astronauts, were living in space for months, some of them for over a year. In this definitive account of mana (TM)s quest to become citizens of the cosmos, noted space historian Robert Zimmerman reveals the great global gamesmanship between Russian and American political leaders that drove us to the stars. Beaten to the Moon by their Cold War enemies, the Russians were intent on being first to the planets. They believed that manned space stations held the greatest promise for reaching other worlds and worked feverishly to build a viable space station program a " one that would dwarf American efforts and allow the Russians to claim the vast territories of space as their own. Although unthinkable at the time, the ponderously bureaucratic Soviet Union actually managed to overtake the United States in the space station race. Leveraging their propaganda machine and tyrannical politics to launch a series of daring, dangerous, and scientifically brilliant space exploits, their efforts not only put them far ahead of NASA, they also helped to reshape their own society, transforming it from dictatorship to democracy. At the same time, the American space program at NASA was also evolving, but not necessarily for the better. In fact, the two programs were slowly but inexorably trading places. Drawing on his vast store of knowledge about space travel, as well as hundreds of interviews with cosmonauts, astronauts, and scientists, Zimmerman has superbly captured the excitement and suspense of our recent space-traveling past. For space and history enthusiasts alike, Leaving Earth describes a rich heritage of adventure, exploration, research, and discovery.
38 citations
1 Jan 2003
TL;DR: In this article, the kinetic energy of asteroids, comet nuclei, meteorites or other space bodies (small planets, natural planetary satellites, space debris, etc.) is used to increase ship speed up to 1000 m/sec and to achieve any new direction in outer space.
Abstract: Currently, rockets are used to change the trajectory of space ships and probes. This method is very expensive and requires a lot of fuel, which limits the feasibility of space stations, interplanetary space ships, and probes. Sometimes space probes use the gravity field of a planet However, there am only nine planets in the Solar System, all separated by great distances. There are tons of millions of asteroids in outer space. This paper offers a revolutionary method for changing the trajectory of space probes. The method uses the kinetic or rotary energy of asteroids, comet nuclei, meteorites or other space bodies (small planets, natural planetary satellites, space debris, etc.) to increase (to decrease) ship (probe) speed up to 1000 m/sec (or more) and to achieve any new direction in outer space. The flight possibilities of space ships and probes are increased by a factor of millions.
31 citations
14 Feb 2011
TL;DR: There have been many proposed technologies and architectures to extend a human presence beyond the Moon Solar electric propulsion (SEP) provides the capability to implement a wide variety of missions with relatively low injected mass to low-Earth orbit Because of its broad applicability this technology can enable progressively ambitious steps towards Mars by incrementally increasing power as discussed by the authors.
Abstract: There have been many proposed technologies and architectures to extend a human presence beyond the Moon Solar electric propulsion (SEP) provides the capability to implement a wide variety of missions with relatively low injected mass to low-Earth orbit Because of its broad applicability this technology can enable progressively ambitious steps towards Mars by incrementally increasing power The benefits of SEP are addressed for cis-lunar excursions, near-Earth asteroid exploration, and missions to Phobos and Deimos, and compared to chemical propulsion and nuclear thermal technologies In particular, SEP expands the range of near-Earth asteroids accessible with a constrained launch capability (IMLEO)
19 citations
Book•
[...]
1 Jan 2001
TL;DR: This non-fiction series aims to encourage children to access the wonder of the world around them and this easy-to-read text has been specially written with the help of a reading expert.
Abstract: How do astronauts travel into space? Where do they live when they get there? What do they do all day? In this book you'll find the answers and lots more amazing facts about living in space. This non-fiction series aims to encourage children to access the wonder of the world around them. The easy-to-read text has been specially written with the help of a reading expert.
12 citations
TL;DR: In this paper, the authors discuss whether human exploration needs a place in a realistic, useful and inspirational space program, given the fact that hundreds of Mars missions could be flown for the still-escalating cost of the International Space Station, the unsuitability of human bodies for deep space exploration, and the advances in 3-D and virtual reality techniques.
Abstract: Human space flight represents a heady mix of bravery and drama which can be inspirational to nations and to humankind but at huge economic cost. Due to the current high launch costs only a handful of people have ventured beyond low Earth orbit and walked on the Moon, propelled by aspirations related more to the Cold War than to science. Problems with reusable launch vehicle development mean that severe launch cost limitations will exist for some time. Meanwhile, cheaper robotic probes have visited all the planets except Pluto, flown by comets, landed on Mars, Venus and an asteroid, have probed Jupiter's atmosphere and studied the Universe beyond our own solar system with telescopes. Using these data we are determining mankind's place in the Universe. Public interest in the historic Eros landing eclipsed a simultaneous space walk at the fledgling International Space Station and the Mars Pathfinder landing generated hundreds of millions of website hits in a few days. Given the fact that hundreds of Mars missions could be flown for the still-escalating cost of the International Space Station, the unsuitability of human bodies for deep space exploration, and the advances in 3-d and virtual reality techniques, we discuss whether human exploration needs a place in a realistic, useful and inspirational space programme.
9 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2021 | 1 |
| 2017 | 3 |
| 2014 | 2 |
| 2013 | 1 |
| 2011 | 5 |
| 2010 | 1 |