Asteroid 2000 WO17 on November 14, 2020, headed for closest approach to Earth on November 29. Image via JPL Small Body Database.
Astronomers are gearing up to observe asteroid (153201) 2000 WO107, in part because of its relatively large size, and in part because subsequent passes of the asteroid will be closer than this year’s pass. This is a fast-moving asteroid that’ll sweep past Earth in late November, providing professional astronomers with a good opportunity to study it and providing amateur astronomers with a shot at it, too (if you get a photo, submit it here). Closest approach to Earth will happen on November 29, 2020 at 05:08 UTC; translate UTC to your time. The asteroid is an estimated 1,670 feet (510 meters, which is half a kilometer or 1/3 mile). It’ll pass at 11.2 times the Earth-moon distance, a very safe distance.
The asteroid will not be visible to the eye, but people with small telescopes might catch it; see the charts below.
Asteroids come in all sizes. How big is 2000 WO107 in contrast to other asteroids known to pass Earth? In recent years, astronomers have begun catching sight of smaller and smaller asteroids as they sweep past us. Compare the 510 meters of this asteroid to asteroid 2020 SW, which came within 7% of the moon’s distance on September 24, 2020. SW was estimated to be only about 4.5 to 10 meters in diameter (roughly 15 to 30 feet) so at least 50 times smaller. Now compare 2000 WO107’s diameter with the largest object in the asteroid belt between Mars and Jupiter: That object is Ceres, and it’s some 946,000 meters (946 km or 588 miles) in diameter, that is, almost 2,000 times larger than 2000 WO107.
Asteroids travel at different speeds. Large asteroid 2000 WO107 is a fast-moving space rock, traveling through space at the amazing speed of 56,080 miles per hour (90,252 km/h) or 25.1 km per second. By contrast, 2020 SW swept past Earth at “only” 17,336 miles per hour (27,900 km/h), roughly a third of that speed.
Astronomers will study 2000 WO107 by bouncing radar signals from its surface and afterwards by analyzing the signals that are reflected. These observations are planned at the Goldstone Deep Space Communications Complex in California, scheduled for November 27 to December 1, 2020.
Radar observations of asteroids result in images that show us the asteroid’s shape. It’s always lots of fun to see the shapes of these great boulders or mountains hurtling through space. According to NASA/JPL, the observations of 2000 WO107 might allow scientists to determine the space rock’s composition. The asteroid might be metallic, or it might be an optically dark rock, that is, a rock that is dark in the visible light part of the electromagnetic spectrum.
Animation of radar images of asteroid 2015 HM10 as it passed by Earth on July 7, 2015. The asteroid, which ranges in size from 40 to 80 meters, was approximately 440,000 kilometers from Earth at the time of the observations. Image via NASA/ JPL-Caltech/ NRAO/ AUI/ NSF.
Astronomers at the Lincoln Near-Earth Asteroid Research project (Project LINEAR) in New Mexico discovered 2000 WO107 on November 29, 2000. NASA’s NEOWISE space telescope has also been used to observe it; NEOWISE determined that the asteroid’s size is about 510 meters in diameter.
Asteroid 2000 WO107 is classified as an Aten type; that is, the orbit of this space rock crosses the orbit of the Earth and spends the majority of its time inside of Earth’s orbit. The asteroid completes its trip around the sun once every 318 days. Orbit models indicate that, in addition to coming close to Earth on occasion, this asteroid also makes close approaches to Mars, Venus and Mercury.
After the November 29, 2020, visit to Earth, the asteroid will return, passing slightly closer on each subsequent flyby – first in November 2040 – and then in November 2093. An even-closer flyby will happen on December 1, 2140, when the asteroid will pass at about half the Earth-moon distance. Because of its size and occasional relatively close flybys, asteroid 2000 WO107 has been classified as a Potentially Hazardous Asteroid. However, no risk of impact has been detected, as its orbit is well known.
Will asteroid 2000 WO107 be visible when it sweeps past Earth in late November? Not to the eye alone. During this November’s flyby, asteroid 2000 WO107 should reach a visual magnitude of 12 to 13.5. That means observers using a 6-inch telescope or larger might be able to see the space rock and it will look like a slowly moving star.
Although its closest approach to Earth occurs during a full moon, observers pointing a computerized telescope at the correct position and time might still be able to spot the asteroid moving in front of the stars.
Location of asteroid 2000 WO107 on the night of November 29, 2020 at 10:00 CDT, as seen from U.S., facing east. Illustration by Eddie Irizarry using Stellarium.
Observers using a GoTo or computerized telescope can point their instruments to one of these reference stars, to try to locate the asteroid, which will appear as a slow moving “star.” Carefully observe the stars’ pattern through the telescope, and compare the view 5 to 10 minutes later to detect an apparent star that changed position (the space rock). Illustration shows the location at 10:00 p.m. CDT on November 29, 2020. Illustration by Eddie Irizarry using Stellarium.
Bottom line: Asteroid 2000 WO107 will pass us at 11.2 times the Earth-moon distance, a safe distance, on November 29, 2020. Astronomers will be watching it as it passes. Charts and more info here.
from EarthSky https://ift.tt/3jEceMn
Asteroid 2000 WO17 on November 14, 2020, headed for closest approach to Earth on November 29. Image via JPL Small Body Database.
Astronomers are gearing up to observe asteroid (153201) 2000 WO107, in part because of its relatively large size, and in part because subsequent passes of the asteroid will be closer than this year’s pass. This is a fast-moving asteroid that’ll sweep past Earth in late November, providing professional astronomers with a good opportunity to study it and providing amateur astronomers with a shot at it, too (if you get a photo, submit it here). Closest approach to Earth will happen on November 29, 2020 at 05:08 UTC; translate UTC to your time. The asteroid is an estimated 1,670 feet (510 meters, which is half a kilometer or 1/3 mile). It’ll pass at 11.2 times the Earth-moon distance, a very safe distance.
The asteroid will not be visible to the eye, but people with small telescopes might catch it; see the charts below.
Asteroids come in all sizes. How big is 2000 WO107 in contrast to other asteroids known to pass Earth? In recent years, astronomers have begun catching sight of smaller and smaller asteroids as they sweep past us. Compare the 510 meters of this asteroid to asteroid 2020 SW, which came within 7% of the moon’s distance on September 24, 2020. SW was estimated to be only about 4.5 to 10 meters in diameter (roughly 15 to 30 feet) so at least 50 times smaller. Now compare 2000 WO107’s diameter with the largest object in the asteroid belt between Mars and Jupiter: That object is Ceres, and it’s some 946,000 meters (946 km or 588 miles) in diameter, that is, almost 2,000 times larger than 2000 WO107.
Asteroids travel at different speeds. Large asteroid 2000 WO107 is a fast-moving space rock, traveling through space at the amazing speed of 56,080 miles per hour (90,252 km/h) or 25.1 km per second. By contrast, 2020 SW swept past Earth at “only” 17,336 miles per hour (27,900 km/h), roughly a third of that speed.
Astronomers will study 2000 WO107 by bouncing radar signals from its surface and afterwards by analyzing the signals that are reflected. These observations are planned at the Goldstone Deep Space Communications Complex in California, scheduled for November 27 to December 1, 2020.
Radar observations of asteroids result in images that show us the asteroid’s shape. It’s always lots of fun to see the shapes of these great boulders or mountains hurtling through space. According to NASA/JPL, the observations of 2000 WO107 might allow scientists to determine the space rock’s composition. The asteroid might be metallic, or it might be an optically dark rock, that is, a rock that is dark in the visible light part of the electromagnetic spectrum.
Animation of radar images of asteroid 2015 HM10 as it passed by Earth on July 7, 2015. The asteroid, which ranges in size from 40 to 80 meters, was approximately 440,000 kilometers from Earth at the time of the observations. Image via NASA/ JPL-Caltech/ NRAO/ AUI/ NSF.
Astronomers at the Lincoln Near-Earth Asteroid Research project (Project LINEAR) in New Mexico discovered 2000 WO107 on November 29, 2000. NASA’s NEOWISE space telescope has also been used to observe it; NEOWISE determined that the asteroid’s size is about 510 meters in diameter.
Asteroid 2000 WO107 is classified as an Aten type; that is, the orbit of this space rock crosses the orbit of the Earth and spends the majority of its time inside of Earth’s orbit. The asteroid completes its trip around the sun once every 318 days. Orbit models indicate that, in addition to coming close to Earth on occasion, this asteroid also makes close approaches to Mars, Venus and Mercury.
After the November 29, 2020, visit to Earth, the asteroid will return, passing slightly closer on each subsequent flyby – first in November 2040 – and then in November 2093. An even-closer flyby will happen on December 1, 2140, when the asteroid will pass at about half the Earth-moon distance. Because of its size and occasional relatively close flybys, asteroid 2000 WO107 has been classified as a Potentially Hazardous Asteroid. However, no risk of impact has been detected, as its orbit is well known.
Will asteroid 2000 WO107 be visible when it sweeps past Earth in late November? Not to the eye alone. During this November’s flyby, asteroid 2000 WO107 should reach a visual magnitude of 12 to 13.5. That means observers using a 6-inch telescope or larger might be able to see the space rock and it will look like a slowly moving star.
Although its closest approach to Earth occurs during a full moon, observers pointing a computerized telescope at the correct position and time might still be able to spot the asteroid moving in front of the stars.
Location of asteroid 2000 WO107 on the night of November 29, 2020 at 10:00 CDT, as seen from U.S., facing east. Illustration by Eddie Irizarry using Stellarium.
Observers using a GoTo or computerized telescope can point their instruments to one of these reference stars, to try to locate the asteroid, which will appear as a slow moving “star.” Carefully observe the stars’ pattern through the telescope, and compare the view 5 to 10 minutes later to detect an apparent star that changed position (the space rock). Illustration shows the location at 10:00 p.m. CDT on November 29, 2020. Illustration by Eddie Irizarry using Stellarium.
Bottom line: Asteroid 2000 WO107 will pass us at 11.2 times the Earth-moon distance, a safe distance, on November 29, 2020. Astronomers will be watching it as it passes. Charts and more info here.
from EarthSky https://ift.tt/3jEceMn
Aucun commentaire:
Enregistrer un commentaire