Keyword: 2013tx68
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The “Near Earth Asteroid” discovered in 2013, which was called 2013 TX68 before being renamed to “B2Bomber,” will make its close approach to Earth on March 10. Slooh will broadcast the asteroid’s approach from Canary Islands Observatory. The event will be followed by discussions by Slooh Astronomer, Eric Edelman, and scientist Dr. Mark Boslough, an expert on planetary science and global catastrophes. The experts are unable to pin down the asteroid’s orbit, though it is suggested that it may pass as close as 11,000 miles, maybe even colliding with Earth in September 2017. Video on Demand: http://www.ruptly.tv Contact: cd@ruptly.tv Twitter:...
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(NEW YORK) — A basketball court-sized asteroid is set to whiz past Earth next week — but astronomers are unsure of just how close the asteroid will come or precisely when the flyby will happen. However, you can breathe a sigh of relief: Astronomers say there’s no chance the rock will hit Earth. NASA’s team at the Center for Near Earth Object Studies (CNEOS) predict Asteroid 2013 TX68 will come within 3 million miles of our planet, but have also left open the possibility it could pass as close as 15,000 miles. It’s expected the flyby will happen around...
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Asteroid TX68 is coming! OK, it's probably gonna miss... but maybe not! Asteroid TX68, from it's name 2013 TX68 was discovered in 2013. It is supposed to approach closer than anything else recently, at .044 times the Lunar distance, or about 11,000 miles. Not sure why they use LD as a measurement because LD changes all the time, but so it goes... Comments or thoughts are always appreciated!
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On October 6th, 2013, the Catalina Sky Survey discovered a small asteroid which was later designated as 2013 TX68. As part Apollo group this 30 meter (100 ft) rock is one of many Near-Earth Objects (NEOs) that periodically crosses Earth's orbit and passes close to our planet. A few years ago, it did just that, flying by our planet at a safe distance of about 2 million km (1.3 million miles). And according to NASA's Center for NEO Studies (CNEOS) at the Jet Propulsion Laboratory, it will be passing us again in a few weeks time, specifically between March 2nd...
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AN ASTEROID set for a staggering close whistle past of Earth in just 10 days could return to strike the planet as early as next year, NASA has admitted. We are expected to be risk free when the space rock hurtles past us at as close as 11,000 miles away - 21 times closer to us than the moon - on March 8. But the US space agency cannot yet be 100 per cent certain about its orbital path. NASA gives near-Earth asteroid a condition code regarding the certainty of its travel from one to 10, with the latter meaning...
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It is believed to have exploded about 18 miles (30km) above the Atlantic Ocean, 6 miles above the troposphere, the atmospheric layer where the Earth's weather occurs. It is unlikely that anyone saw it, but it was probably picked up by the military, who record atmospheric explosions. "Impacts like this happen several times per year on average, with most going unseen," Plait said. It's the much larger impacts that we should be worried about. Nasa tracks around 12,992 near-Earth objects which have been discovered orbiting within our solar system close to our own orbit. It estimates around 1,607 are classified...
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You may need Java on, also this link has been giving a few people issues. The link is here (For copy/pasters) http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2013%20TX68&orb=1 Go to www.spaceweather.com and scroll down to the near-earth objects. 2013 TX68 Mar 5 0.044 LD 30 m
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An asteroid as long as a basketball court will give Earth a close shave next month — though scientists aren’t sure just how close. The near-Earth asteroid 2013 TX68, which is thought to be about 100 feet (30 meters) in diameter, will zoom past our planet on March 5. The space rock could come as close as 11,000 miles (17,700 kilometers) — less than 5 percent of the distance from Earth to the moon — or stay up to 9 million miles (14.5 million km) away during the flyby, NASA officials said. “The variation in possible closest-approach distances is due...
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