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Displaying 1—10 of 1000 matches for query "12._Does_a_black_hole_really_have_gravitational_pull_so_strong_that_it_could_stretch_you_out" retrieved in 0.041 sec with these stats:
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- "could" found 13857 times in 4938 documents
- "stretch" found 249 times in 224 documents
- "you" found 35744 times in 1428 documents
- "out" found 14154 times in 3695 documents
... stretched and compressed thinner and thinner like a strand of spaghetti well before disappearing over the event horizon on his way to oblivion. A larger black hole would have a much more gentle gravitational ...
... a black hole from another universe connects to ours, theoretically, it would be a white hole in ours... but all the other universes' matter would be pulled together by gravity and the white hole ... that work to describe what happens to matter in a black hole, we cannot offer any ideas about black holes or even if black holes could exist in other universes. Remember that the existence of black holes ...
No—the tidal forces for small black holes would be too great for any human to survive the trip. Larger black holes would allow for the possibility for humans to survive the trip past the event horizon, but then the unlucky astronaut would disappear from existence and have no way to ...
... matter that compresses all the empty space found within the star to a point of infinite density called a singularity. The laws of physics cannot describe the physical state of matter within a black hole because there is no way to get any signals from the mass of a collapsed star once it disappears beyond its event horizon and forever slips ...
... a rotating black hole in space, there is a chance for an object to fall into a black hole at a certain approach angle that would allow it to miss the singularity in the center of the black hole and find its way out ...
Stars that could form black holes are so far from our solar system that the effect on our solar system would be negligible—I would worry more about ... three solar masses And remember that once this star collapses to form a black hole, its effect on the matter around it will be exactly the same as before. All a black hole does is concentrate the mass of an ...
... ;nothing can ever exceed it. That means that once you are in a black hole, the escape velocity needed for a rocket ship to escape would exceed the speed of light. That cannot happen, according to the known laws of physics in our Universe. The fact that light cannot escape the gravitation well of a black hole ...
You never get sucked into a black hole but scientists can use Einstein's theory of relativity to determine that if you come within three times its Schwarzschild radius, you will never break free of its gravity. Karl Schwarzschild was the scientist who first used Einstein's equations to mathematically determine that the radius to the event horizon of a black hole ...
... a supernova explosion or form a black hole Remember, the end life of a star like our Sun, which has less than eight solar masses, will result in the star eventually swelling to its ... a magnificent planetary nebula that will be left to glow due to the energy provided by the Sun's core which shines as a ...
... never become a black hole since it does not have enough mass to allow it to form a black hole. Only stars with a much greater mass than the Sun—eight to ten times the Sun's mass—have the possibility of collapsing into a black hole ...
Additional database time was 0.035 sec.
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