News on research satellites
- Will we ever travel to an earthlike exoplanet and how?
- The "Pioneer anomali" explained
- DAWN will stay with Vesta for an extra 40 days
- Voygare 1 still far from the interstellar medium
- Nuclear spaceship being prepared for launch
- Rocket launched into Aurora
- Satellite images of nighttime lights help track disease outbreak
- Voyage1 shuts down heat but continues another 13 years
- Voyager1 reaches a pause to interstellar space
- First images from VIIRS
- First space-measurements of Earths water-vapor
- Mission to touch the Sun in 2018
- Manned mission to asteroid
- ROSAT crashes to Earth
- ESA chooses next two science missions
- UARS satellite plunged into the Pacific Ocean
- Exploring an asteroid with the Desert RATS
- UARS satellite crashed - location unknown
- The 6 ton UARS satelite crasches tonight
- Underwater training for manned asteroid mission underwater
- 6ton NASA satellite soon to crash
- Spacejunk is a problem but tiny bits are worse
- Tour the Solarsystem with spaceprobes
- Jupiter-Bound spacecraft captures Earth and Moon
- Juno Spacecraft Launches to Jupiter
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Manned mission to asteroid
Wednesday, 26 October 2011 12:00
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| Spaceflight - Research satellites |
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NASA and their partnering Universities are all planning and preparing for a manned mission to an asteroid One of the most accessible goals for human spaceflight is a rendezvous with a Near Earth Object (NEO). NEOs are asteroids or comets whose orbits take them close to the earth's orbit. An NEO might someday collide with the earth - and there are almost 6000 larger in diameter than about 100m known, with predictions that over 10x as many could exist. The impact of even a 1-kilometer-sized NEO would probably destroy an average state, and this is certainly one reason to study them. From the perspective of pure science, NEOs are important nearby representatives of the early Solar System. A manned mission to an NEO is now under study at NASA. Human space flight considerations provide an additional reason to study them. In futuristic scenarios, when they are close by their resources can be mined for spacecraft use (propellant, life support, construction materials) or commercial use. Of course such a mission would want to aim for an NEO that is (at the time of the rendezvous) fairly close to the Earth, and to minimize the fuel needed, one that is not moving too fast with respect to the Earth. This accessible class of NEOs, however, is very difficult to detect. Because their orbits are very Earth-like, their motions are very similar to the Earth's. Hence, most of the time they are in the daytime sky, not in the Earth's night shadow, and therefore they are hard to spot. Only about sixty-five are now known, leaving NASA with only a modest-sized sample from which to select characteristics of interest, like composition. CfA astronomers Martin Elvis, and Jonathan McDowell, together with two colleagues, review the case for visiting an accessible NEO, and summarize the statistics. They estimate from NEO research that there are probably ten times as many of these accessible NEOs still to be discovered, and argue that a dedicated survey looking for them should be a NASA priority. Not only would it help identify the site of a potential future astronaut visit, such a study would also increase our understanding of NEO characteristics in general, as we use them as tracers of the conditions in the early Solar System. Source: Harvard |
