As a wormhole structure is expected to maintain some semblance of matter, then it would be shredded upon the black hole's event horizon. If the black hole was smaller than the wormhole, then the black hole could destabilize the wormhole and cause it to collapse in on itself. Either scenario doesn't make much sense, as it is a bit like asking who would win between two superheros.
All these theoretical modeling is all speculative and prone to sheer fantasy. Of all Black stars observed in the universe, no one has ever observed a Worm Hole, even Einstein had to come up with the conclusion that they probably don't exist. We want Worm Holes to exist because it would make space travel a possibility. They talk about Dark Matter and Dark Energy, but no one has ever detected this stuff that a large chunk of the universe is made of.
Worm Holes do exist, but not in our neck of the woods. What of the multiverse? Do infinite dimensions result in an endless photocopied version of this universe, resulting in infinite versions of you? Nothing exists outside this universe, so we implode creating endless variations of me.
We would be live an interesting life, if we can prove any of these really exists. So far it only amounts to good or bad fiction. Till some one proves, beyond a shadow of a doubt, that any of this exists in reality, you can take it to the Tower of Babylon host it up as a flag and see who salutes. If a Worm Hole swallow's a Black Hole and it gets caught in the middle; would you have to perform the Heimlich Maneuver? What would become of the Black Hole once it is coughed up, out of the Black Hole, or would it come out the other end.
It is either barfing of crapping, one way or the other it has to dislodge. One way or the other. Now there are too many speculations in theoretical physics thanks to the two pillars: Einstein's relativity and quantum mechanics, both of which have already been disproved. The Sciences. Newsletter Sign up for our email newsletter for the latest science news. Sign Up. The term wormhole was coined in by American physicist John Wheeler.
He named them after the literal holes worms leave behind in fruits and timber. Before that, they were called one-dimensional tubes and bridges. Already a subscriber? Want more? Despite his pessimism for pan-galactic travel, he said that finding a way to construct a wormhole through which light could travel was a boost in the quest to develop a theory of quantum gravity.
Although this means the direct connection between the black holes is shorter than the wormhole connection -- and therefore the wormhole travel is not a shortcut -- the theory gives new insights into quantum mechanics. Jafferis based his theory on a setup first devised by Einstein and Rosen in , consisting of a connection between two black holes the term wormhole was coined in Because the wormhole is traversable, Jafferis said, it was a special case in which information could be extracted from a black hole.
To date, a major stumbling block in formulating traversable wormholes has been the need for negative energy, which seemed to be inconsistent with quantum gravity. But there is one aspect of plunging into an interstellar express that the film doesn't address: How do you survive the trip?
Although they didn't call it such, the original wormhole was the brainchild of Albert Einstein and his assistant Nathan Rosen. They were trying to solve Einstein's equations for general relativity in a way that would ultimately lead to a purely mathematical model of the entire universe, including gravity and the particles that make up matter. Their attempt involved describing space as two geometric sheets connected by "bridges," which we perceive as particles. Another physicist, Ludwig Flamm, had independently discovered such bridges in in his solution to Einstein's equations.
Unfortunately for all of them, this "theory of everything" didn't work out, because the theoretical bridges did not ultimately behave like real particles. But Einstein and Rosen's paper popularized the concept of a tunnel through the fabric of spacetime and got other physicists thinking seriously about the implications.
Princeton physicist John Wheeler coined the term "wormhole" in the s when he was exploring the models of Einstein-Rosen bridges. He noted that the bridges are akin to the holes that worms bore through apples. An ant crawling from one side of the apple to another can either plod all the way around its curved surface, or take a shortcut through the worm's tunnel.
Now imagine our three-dimensional spacetime is the skin of an apple that curves around a higher dimension called "the bulk. It sounds strange, but it is a legit mathematical solution to general relativity. Wheeler realized that the mouths of Einstein-Rosen bridges handily match descriptions of what's known as a Schwarzschild black hole , a simple sphere of matter so dense that not even light can escape its gravitational pull.
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