The only reason you can't see the center where all this mass is because no light is reflected off it because the black hole's gravity is too great. But the stuff that fell in adds to the mass of the black hole, which has a bigger gravitational field as a result. There are some interesting issues about "the state of matter" that comprises a black hole, and whether you can even call it matter. ![]() Because of this, I think when something gets sucked up by a black hole, it just gets crushed up with all the other mass and adds to it. It is as if the MCU higher-ups got wind of what was going down and quickly engineered a black hole of studio notes to suck the Guardians into a tesseract of meaningless set pieces and prolonged B. This means a black hole must be a very compact sum of mass that has a lot of gravity. This is why dying stars forms black holes. The important thing is that at the event horizon the "coordinate" speed of light is zero, so light can't get out. According to Wikipedia, "The theory of general relativity predicts that a sufficiently compact mass can deform spacetime to form a black hole". Black holes are also invisible, technically speaking, which has meant it has been very tricky for scientists to capture them on camera As things get sucked into the black hole the radiation energy. I want to know where stuff goes after being sucked up by a black hole. I've heard that stuff sucked up by a black hole leads to a parallel universe, but I don't believe that. News By Ben Turner published 3 March 2023 A strange blob has been seen rapidly circling our galaxys. Into the black hole, increasing its mass. A mysterious object is being sucked into our galaxys black hole. Wolf continued: "This black hole is growing so rapidly that it's shining thousands of times more brightly than an entire galaxy, due to all of the gases it sucks in daily that cause lots of friction and heat.Where does stuff sucked up by a black hole go? "The hunt is on to find even faster growing black holes." Gravitational Waves Could Collide Sucking Earth Into a Black Hole By Kashmira Gander On 8/30/18 at 10:29 AM EDT Tech & Science Ever wondered how the world might end According to physicists, one. "We don't know how this one grew so large, so quickly in the early days of the Universe," Christian Wolf, an astronomer at the Australian National University (ANU), said in a statement. The black hole grew at 1 percent every million years, 12 billion years ago. It ate up a mass equaling that of the sun's every two days. The researchers believe the methods used in their study could help to solve other problems relating to strong field gravity and cosmology that involve particle distributions of matter.Įarlier this year, astronomers found the fastest-growing black hole ever. ![]() David Garfinkle, a professor in the department of physics at Oakland University in Michigan, told New Scientist nothing in the known universe exists that could cause plane-fronted waves to form a black hole. ![]() Reassuringly, however, if small waves collided they would likely cross each other and dissipate.ĭr. Space-time is sort of sucking itself into a black hole." Suvi Gezari, head of the Johns Hopkins team, explains that only some of a stars mass gets sucked into a black hole when the two bodies collide. The resulting black hole could swallow up 85 percent of the wave's energy, while some of the lingering ripples would orbit the hole forever.įrans Pretorius, study co-author and a professor of physics at Princeton University, told New Scientist: "These particles have a lot of energy and produce curvature in space-time, and when the waves collide, that curvature wraps in on itself. The physicists believe such a freak gravitational wave could be powerful enough to tangle space-time. The findings published in the journal General Relativity and Quantum Cosmology indicate that if the waves were big enough, such as collision could create a black hole: an area of space with such a strong gravitational field that even light can't escape from it. An illustration of a black hole sucking matter from a nebula.
0 Comments
Leave a Reply. |