No a comet can't escape from the black hole not even the light can escape. reason is simple, The gravitational forces of black is so immense that it can swallow all the things.
black hole
If you get very close to a black hole you will get spaghettified or in another words black hole will rip you to shreds because gravity of black hole is so immense that even light can't escaped from it .
No
Pluto
A black hole will "such things up" if such things get sufficiently close to the black hole. This is a result of its gravity. Similarly, our Sun will "suck things up" if they get too close - for example, a comet might crash onto the Sun; the comet's mass will increase the mass of the Sun. Please note that if, for example, our Sun becomes a black hole (it probably won't, since it doesn't have enough mass for that), without changing its mass in the process, the Earth will continue orbiting the black hole as it orbited the Sun before. It will NOT be "sucked up" in the process - the black hole's gravitational attraction would be the same as the Sun's attraction before becoming a black hole.
no, a black hole only forms when a star cannot resist its own gravity and it completely collapses and causes a hole is space-time. if a comet was blown up it would not create a black hole because it doesnt have the mass to create one. if you blew it up it wouldn't implode to create a black hole. ( hahahah i am only in grade 8 and i know this stuff) ADDED: "Ha ha" indeed! A comet is just a chunk of assorted gases and rocks, and all blowing it up would do is scatter fragments far and wide. Only extremely massive stars dying as supernovae can become black holes, and not all of them do that.
A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.
Just like any object, a black hole will attract objects in its surrondings. The Sun can "suck in" a comet that ventures too close, for example, but the Sun is not a black hole. The Earth can "suck in" a meteor that comes close to the Earth.The distinctive feature of a black hole is that nothing gets out again - except indirectly, through the Hawking radiation, and that is very, very slow.Just like any object, a black hole will attract objects in its surrondings. The Sun can "suck in" a comet that ventures too close, for example, but the Sun is not a black hole. The Earth can "suck in" a meteor that comes close to the Earth.The distinctive feature of a black hole is that nothing gets out again - except indirectly, through the Hawking radiation, and that is very, very slow.Just like any object, a black hole will attract objects in its surrondings. The Sun can "suck in" a comet that ventures too close, for example, but the Sun is not a black hole. The Earth can "suck in" a meteor that comes close to the Earth.The distinctive feature of a black hole is that nothing gets out again - except indirectly, through the Hawking radiation, and that is very, very slow.Just like any object, a black hole will attract objects in its surrondings. The Sun can "suck in" a comet that ventures too close, for example, but the Sun is not a black hole. The Earth can "suck in" a meteor that comes close to the Earth.The distinctive feature of a black hole is that nothing gets out again - except indirectly, through the Hawking radiation, and that is very, very slow.
Simply put, nothing can escape a black hole. Not even light. The only matter than has even remotely 'escaped' (and I use the term loosely) a black hole is just "lucky". Some matter is saved at the brink and thrust light years into space. Once something crosses the Event Horizon, however, that's it. The Event Horizon is the point of no return.
The collapses star gets squeezed by collapses gas and turns into a black hole.
Probably an asteroid, meteor or comet.
a big giantic hole in the ground