black hole
No. An asteroid does not have enough mass. In order to become a black hole an object must be massive enough to be crushed by its won gravity. This takes an object at least several times more massive than the sun.
A black hole near Neptune -- or near any other object in space -- would suck up that planet (or that object). Fortunately, there nearest black hole to our Solar System is several thousand light years away.
Yes, it is. The universe is all of time and space, including every star, planet, heavenly body, gas cloud, dust cloud, light, energy, matter, anti-matter, black hole, solar system, galaxy, asteroid, comet, meteor, moon, in whatever system or configuration it resides.
There is no known black hole in our Solar System.
The mass of a black hole can be calculated by observing the movement of any object which is in orbit around it - or simply close enough to be affected by the black hole's gravity. The same method can be used to calculate the mass of other objects - for example, both stars in a binary star system.
Probably not a star. Could be a black hole, asteroid, or other spacial object.
the sun,an artificial satellite,an asteroid,black holes,white holes,worm holes
No. An asteroid does not have enough mass. In order to become a black hole an object must be massive enough to be crushed by its won gravity. This takes an object at least several times more massive than the sun.
No. The nearest black hole is about 1,600 light years away from the solar system.
A black hole would eventually swallow up the entire Earth. An asteroid would provoke great catastrophes - depending, of course, on the mass of the asteroid.
No. Black holes and asteroids are two completely different things. A black hole is an object, usually the remnant of a star, that has completely collapsed under the force of gravity to an infinitely dense point space and time around the black hole are so severely distorted that, within a certain radius, not even light can escape. An asteroid is a mass of rock and/or metal that orbits a star and is too small to be a planet.
No. The "black hole" is a feature on the right side of the solar system (X-85 Y-47) where you dispose of the Space Sharks. The asteroid belt, containing the Binary Bard's secret portal, is at the lower left side (X-11 Y-84).
If you mean in the solar system, then the answer is the sun. Jupiter and Saturn are also some big masses in the solar system. In the galaxy, the largest object is probably the black hole in the center.
It depends on the composition of the asteroid, but generally black or dark gray. Perhaps a little red or orange, if there is any surface iron.
a dark or light brown with craters which are black in side
When light of all colors (wavelengths) is absorbed by an object, the object appears black.
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.