Researchers at the Harvard and Smithsonian Center for Astrophysics have discovered a supermassive black hole that appears to be in motion, according to a recent study. Supermassive black holes have a combined mass of more than a million suns. It is said to have three million times the mass of the sun. “We don’t expect most supermassive black holes to be in motion; they’re usually content to just stay put, ”said lead author of the study astronomer Dominic Pesce, according to Harvard. “They are just so heavy that it is difficult to get them going. “Think how much more difficult it is to get a bowling ball moving than kicking a soccer ball – realizing that in this case the ‘bowling ball’ is a few million times the mass of our sun,” he said. “That will take a pretty powerful kick.” The Harvard report noted that the team of researchers has focused on observing this rare phenomenon for the past five years. Their hypothesis is that if the black hole and the galaxy do not share the same speed, the black hole was somehow ‘disturbed’. The team peered over ten distant galaxies to study the supermassive black holes that were hiding. within their cores.
cnxps.cmd.push (function () {cnxps ({playerId: ’36af7c51-0caf-4741-9824-2c941fc6c17b’}). render (‘4c4d856e0e6f4e3d808bbc1715e132f6’);});
if (window.location.pathname.indexOf (“656089”)! = -1) {console.log (“hedva connatix”); document.getElementsByClassName (“divConnatix”)[0].style.display = “none”;}The team found that nine out of ten supermassive black holes appeared to be at rest, while one appeared to be in motion and moving through its galaxy. Harvard said the black hole is 230 million light years from Earth in a galaxy called J0437 + 2456. Pesce and his team clocked the black hole at a speed of 110,000 miles per hour within the galaxy. The reason for the movement is unknown. “We may be observing the aftermath of two supermassive black holes merging,” National Radio Astronomy Observatory radio astronomer Jim Condon, and co-author of the study, told Harvard. “The result of such a fusion can cause the newborn black hole to recoil, and we can watch it recoil or settle down.” The scientists think one possibility is that the black hole is interacting with another black hole. hole that appears hidden because it lacks certain properties to be visible. “Despite all expectations that they really should be plentiful, scientists have had a hard time identifying clear examples of binary supermassive black holes,” Pesce told Harvard. “What we might see in the galaxy J0437 + 2456 is one of the black holes in such a pair, while the other remains hidden from our radio observations due to the lack of maser emission.” The group of researchers published its findings in The Astrophysics Journal