![]() “I have found what seems to be a small feminine looking statue head on Mars in Gale Crater in this recent Curiosity Rover image from NASA. TRENDING NOW | IPL 2018 Live Score, RR vs SRH: Hales, Williamson depart in quick succession Joe White, a space video journalist from Bristol spotted the statue and being a keen observer, the amateur astronomer says it has all the earmarks of being the head of an ancient Egyptian warrior woman. A sharp-eyed astronomer spotted a statue that looks very similar to a head of an ancient woman warrior. Latest images sent by Curiosity rover from Mars has sparked debates as in the latest images shows a mysterious woman statue on Mars. 22) in the Astrophysical Journal.įollow Tereza Pultarova on Twitter. ![]() The study was published on Wednesday (Feb. Since X7 still has more than a decade of life ahead of it, astronomers will continue monitoring its journey as it spirals to its ultimate death. Insights gathered from X7 may therefore help astronomers predict the lives of its counterparts. These filaments, called the G objects, orbit extremely fast around the vicinity of the black hole, at speeds of up to 490 miles per second (790 kilometers per second). X7 is one of a multitude of filaments that exist in the Milky Way's galactic center. "In this process, the merged star is hidden inside a shell of dust and gas and the ejected gas perhaps produced X7-like objects." ![]() "One possibility is that X7's gas and dust were ejected at the moment when two stars merged," Ciurlo said. They think the cloud may have formed when two stars merged and ejected a shell of dust and gas that emerged around them in the process. While the researchers have predicted the filament's future with quite a high level of reliability, they know much less about its past. Star survives spaghettification by black hole ![]() Black holes may be the source of mysterious dark energy Colliding black holes 'ring' across space-time with gravitational wave ripples The process, according to the scientists, may produce some "fireworks" as the dust accelerates and heats up before crossing the event horizon. Images captured with Keck Observatory's NIRC2 instrument and adaptive optics showing X7's evolution between 2002-2021.Īfter the filament's demise, its material will be swallowed up by the black hole. "It's exciting to see significant changes of X7's shape and dynamics in such great detail over a relatively short time scale as the gravitational forces of the supermassive black hole at the center of the Milky Way influences this object," Randy Campbell, science operations lead at Keck Observatory and co-author of the study, said in the statement. Shortly after that, the cloud will completely dissipate. They found that the filament currently takes about 170 years to orbit around the galactic center, and calculated that in 2036, the filament will make its closest approach to the black hole. Thanks to infrared light's ability to penetrate through dust, the astronomers were able to observe the filament's motions in great detail. The astronomers observed X7 using the NIRC2 instrument on Keck that reveals the universe in the heat-emitting near-infrared light, the same wavelength that NASA's James Webb Space Telescope specializes in. "This is a unique chance at observing the effects of the black hole's tidal forces at high-resolution, giving us insight into the physics of the galactic center's extreme environment," Anna Ciurlo, assistant researcher at the University of California, Los Angeles, and lead author of the study, said in a statement. Artist's rendering of what is anticipated to happen around the year 2036 when X7, an elongated filament of dust and gas, makes its closest approach to the Milky Way’s supermassive black hole.
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