We Might Be Living Inside a Black Hole

 

We might be living inside a black hole. You probably know that black holes are objects so dense that not even light can escape them. But what you probably didn't know was that we may all be living inside one. According to Dr. Nikodem Poplowski from Indiana University, all of the matter that gets sucked into a black hole might wind up turning into a new universe on the other end. After all, when you ask scientists what happens to the stuff a black hole swallows up, most will shrug their shoulders and admit that it's one of the greatest mysteries of the universe. Poplawski's calculations suggest that the matter flowing in one end as the black hole chews its way through the galaxy might be the equivalent of making a black hole a doorway to another universe. Calculations show that the theoretical other end of a black hole draws matter in and compresses it, while a white hole spews it forth. This compression and expansion of matter is mathematically equivalent to the creation of a universe. The implications are that each black hole in our universe may contain its own universe inside it. Consequentially, our own universe should itself be inside a black hole, which in turn would be inside its own universe as well. It's like a never-ending series of Russian nesting dolls. 

Hawkins Black Hole According to a recent study, a human can unknowingly be sucked into a hologram if they fall into a black hole. Based on Hawking's discovery that black holes aren't actually black, this argument challenges the hypothesis that states that anyone going into a black hole hits a "firewall" and is instantly destroyed. Black holes continuously emit radiation once quantum effects are taken into consideration, as demonstrated by Hawking's calculations. Since the temperature of this radiation for most astrophysical black holes is far lower than that of the cosmic microwave background, present technology is unable to detect them. This indicates that information about a black hole will be lost forever if it can evaporate, which goes against a fundamental principle of quantum mechanics that claims information cannot be created or lost. This also raises an issue with black hole determinism, which holds that the universe's state at any given time can only be uniquely determined by its condition at any previous time. For many physicists, the ultimate goal and a notoriously difficult challenge to solve would be to reconcile quantum mechanics with Einstein's theory of gravity, which would cause this loss of determinism. Since any possible explanation of quantum gravity must account for the loss of data documenting a black hole's past, blackhole physics offers a litmus test for such theories. A black hole's surface area (in two dimensions) rather than its volume (in three dimensions) is thought to hold more information than its volume, according to scientific theories. This could be explained by quantum gravity, in which, similar to a hologram, the three dimensions of space can be rebuilt from a two-dimensional, gravity-free universe. Although holography demonstrates that data does not vanish into black holes, it has proven surprisingly difficult to identify the error in Hawking's initial claims.