The stellar black holes are the most common ones, as far as we know.
As a black hole.As a black hole.As a black hole.As a black hole.
Yes. Intermediate-mass blackhole is a medium size black hole. Scientists have found stellar black holes and supermassive black holes but there is no prove that Intermediate-mass black type of black holes exist. My opinion is that they do exist because when a black hole is becoming a black hole supermassiveblack hole it will need to go though this stage of intermediate-mass black hole.
A black hole is a type of star with excessive gravity. Here are some sentences.The star was sucked into the black hole close by.A black hole will even absorb light.The scientist is studying a black hole.
Basically, all galaxies do. Or most of them.
Massive, big, and very luminous stars turn into black holes most of the time
That would be "black hole". This is most likely to happen when the original star is very massive - several times the mass of the Sun. A star of the Sun's mass will definitely NOT become a black hole, unless it somehow acquires much more mass.
Yes, all high energy types. The intensity of each ray depends on the type of black hole. Ultraviolet, X-ray, Gamma
The only event that we know of, that might result in a black hole, is a Type II supernova.
The ending first: We don't know. Please re-read that. OK, what are the conjectures? A Black hole leads to another, somewhat parallel universe. A Black Hole leads "nowhere". A Black Hole leads to a different type of singularity. A Black Hole leads eventually to another "Big Bang" in another dimension. A black hole leads to a parking lot in Gelsinkirchen, Germany. There are many more. Please re-read the first sentence.
No. There are not black holes anywhere near our solar system. Even then, scientific models suggest that stellar-mass black holes, the smallest common type, must be at least 3 times more massive than the sun, so the sun would more likely orbit the black hole if one were nearby.
It's quite probable that all black holes spin. The probability of a huge amount of matter collecting with no net angular momentum is vanishingly small.The first solution of general relativity's equations for a black hole was found by simplifying the problem to assume that there was no rotation. Thus, it is possible to find, in the literature, papers referring to non-rotating black holes. Later, a solution was found that allowed for rotation, and this is the most realistic physical situation.
Type your answer here... the person went black