![]() ![]() Just as the word suggests, spaghettification elongates the object in question so that it resembles spaghetti. The intense gravitational force from the singularity pulls at different rates, depending on location relative to the center, which can produce a “spaghettification” effect on any object unfortunate enough to be caught inside. What is commonly accepted, however, is that, because of a black hole’s distortion of the space-time continuum, time at the base of its event horizon passes far slower than time on Earth.īlack holes are hard to find, but if you not only did find one but also went inside it, you would discover that it is fatal. While this is an interesting concept-and no doubt the origin of many sci-fi favorites-because of the inaccessibility of black holes, there is no known way to test it. Some theories even propose that if you could survive the initial entry into a black hole, the inside would produce images of the future and the past all at once-an idea consistent with the multiverse theory of the universe. The farther into a black hole you venture, the more distorted time becomes. The same thing happens with black holes, though the distortion you would experience would be a bit more severe than anything Silly Putty could generate.Īt the edge of a black hole, or the event horizon, time begins to slow astronomically. The marble would bend the plane downward dramatically, which would elongate any interaction with the plane toward the marble. If you imagine space-time as a suspended flat plane of Silly Putty, then creating a singularity would be like putting a marble in the center. So, what happens if you bend it? Well, if you were to experience a black hole up close, time would definitely move much differently from the way it does here on Earth. Space-time, in a very basic sense, is the union of space and time as one four-dimensional continuum. The extreme density of the new singularity pulls everything toward it, including space-time. It is this seemingly impossible contradiction that causes a black hole to form. ![]() The dying star continues to collapse until it becomes a singularity-something consisting of zero volume and infinite density. As it collapses, the star explodes into a supernova-a catastrophic expulsion of its outer material. When a star dies, it collapses inward rapidly. In short, black holes are massive pits of gravity that bend space-time because of their incredibly dense centers, or singularities. But what happens when we take the fiction out of it? What’s really going on inside those terrifying faraway entities? Science fiction has often relied on the concept of black holes as a plot device, painting them as portals to other universes or as vehicles for time travel. SpaceNext50 Britannica presents SpaceNext50, From the race to the Moon to space stewardship, we explore a wide range of subjects that feed our curiosity about space!.Learn about the major environmental problems facing our planet and what can be done about them! Saving Earth Britannica Presents Earth’s To-Do List for the 21st Century. ![]()
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