Asteroid impact prediction
Asteroid impact prediction warns about asteroids hitting Earth, and when and where they will hit the Earth. Most asteroids will not hit Earth. Asteroid impact prediction works by finding the ones that will hit Earth. It finds asteroids that might hit Earth in the future. This works well for big asteroids as they can be seen easily from a long distance, many years before they come close to Earth.
There aren't many big asteroids, but there are millions of smaller space rocks. They are not normally bright enough to see until they are close to Earth. We use telescopes to find the asteroids that are going to hit Earth soon. The telescopes are not good enough to see the small asteroids unless everything is perfect. Because of this we almost never see them before they hit Earth.[1]
NASA Sentry system
changeThe IAU Minor Planet Center (MPC) looks after all the asteroid information in the world. NASA's Sentry System is always checking the MPC asteroid information. It checks if any asteroids could hit earth in the future.[2] It has not yet found any. The asteroid which is most likely to hit Earth is called 2010 RF12. NASA thinks it will pass Earth in September 2095. They think it has less than a 1 in 10 chance of hitting Earth.[3]
Making impact prediction better
changeIn the early 21st century impact prediction usually doesn't work. Almost all of the asteroids that hit Earth are a surprise. NASA wants to get better at impact prediction by building more powerful telescopes. A big new telescope, made for searching, is being built in northern Chile called the LSST. It is very big and will take years to build. It should be ready by 2023.[4] When it is ready the powerful telescope should be a lot better at seeing small asteroids.
Telescopes on the Earth can only see part of the sky. They won't be able to see any asteroids coming from near the direction of the Sun because of the blue sky during the day.[1] A telescope in space doesn't have that problem. It can see much more of the sky around Earth. It can keep looking all through the day and night and there are no clouds or rain in space. Telescopes in space can also use infrared heat radiation to find asteroids. Looking for that kind of light is an especially good way of finding asteroids. This method doesn't work on Earth because the air is too warm. Heat radiation from warm air hides the heat radiation that comes from the asteroids. Space telescopes are better in a lot of ways, but they cost more money. Also, they don't last as long as telescopes on the ground.[1]
In 2017 NASA had lots of ideas to help find smaller asteroids. They want to find 9 out of 10 of the asteroids that are bigger than 140 metres (as long as two jumbo jets). The ideas should help find asteroids which are smaller than 140 metres long too. Quite a lot of the ideas use a new telescope on the ground working with a new space telescope. An example telescope on the ground is LSST. An example telescope in space is NEOCAM, but nobody has started building it.[1] These new telescopes will be expensive. But, NASA has done most of the work finding asteroids already. Out of all the asteroids ever found, NASA has found more than 9 out of 10 of them. Asteroids hit all over Earth, not just the USA where NASA is from. Because of this, NASA was asked by the United States government to find other countries to help. They need other countries to help make the telescopes and help pay for them.[5]
List of when it worked
changeBelow is the list of all the times when asteroid impact prediction worked. When it worked, the space rocks which hit the Earth were not a surprise. There are lots of asteroids which will hit Earth in the future. They are not in the list because we don't know about any of them yet. [6] If we get better at asteroid impact prediction we will find out about them. Then we will know what asteroids are going to hit us in the future.
Day the Space Rock Hit Earth | Day the Space Rock was First Seen | Name of the Space Rock | Size in Metres |
Speed miles per hour |
---|---|---|---|---|
7 October 2008 | 6 October 2008 | 2008 TC3 | about 4 metres | 29 000 mph [7] |
2 January 2014 | 1 January 2014 | 2014 AA | about 3 metres | unknown [note 1][8] |
2 June 2018 | 2 June 2018 | 2018 LA[note 2] | about 3 metres | 38 000 mph [9] |
Notes
change- ↑ 2014 AA exploded over the mid-Atlantic, a long way from the nearest atomic bomb microphones. This means the speed is not known
- ↑ 2018 LA was thought to have an 8 out of 10 chance of hitting Earth somewhere between the Pacific ocean and Africa (Impact path Archived 2018-06-13 at the Wayback Machine). People in South Africa and Botswana saw the asteroid hit Earth in central Africa
Related pages
changeReferences
change- ↑ 1.0 1.1 1.2 1.3 "Update to Determine the Feasibility of Enhancing the Search and Characterization of NEOs" (PDF). Near-Earth Object Science Definition Team Report 2017. NASA. Retrieved 7 July 2018.
- ↑ How Does NASA Spot a Near-Earth Asteroid? on YouTube
- ↑ "Sentry: Earth Impact Monitoring". Jet Propulsion Laboratory. NASA. Retrieved 25 August 2018.
- ↑ "LSST Project Schedule". 8 June 2015. Retrieved 24 August 2018.
- ↑ "Federal Government Releases National Near-Earth Object Preparedness Plan". Centre for NEO Studies. Interagency Working Group for Detecting and Mitigating the Impact of Earth-Bound Near-Earth Objects. Retrieved 24 August 2018.
- ↑ "Impact Risk Data". Sentry: Earth Impact Monitoring. Jet Propulsion Lab. Retrieved 7 July 2018.
- ↑ Jenniskens, P.; et al. (2009). "The impact and recovery of asteroid 2008 TC3". Nature. 458 (7237): 485–488. Bibcode:2009Natur.458..485J. doi:10.1038/nature07920. PMID 19325630. S2CID 7976525.
- ↑ Farnocchia, Davide; Chesley, Steven R.; Brown, Peter G.; Chodas, Paul W. (1 August 2016). "The trajectory and atmospheric impact of asteroid 2014 AA". Icarus. 274: 327–333. Bibcode:2016Icar..274..327F. doi:10.1016/j.icarus.2016.02.056.
- ↑ "Tiny Asteroid Discovered Saturday Disintegrates Hours Later Over Southern Africa". NASA/JPL. Jet Propulsion Laboratory. Archived from the original on 4 June 2018. Retrieved 4 June 2018.