Well, let's think of a black hole like a tiny little speck in the vast universe. Even though they can be extremely compact and small, they contain immense density and mass due to their powerful gravitational pull. Each one, no matter how petite it may seem, is a wonder of nature's balancing act between mass and space.
Oh , that's such a cool question! Well, the smallest black holes known to exist are about 3-5 times the mass of our sun. That may seem small compared to other black holes, but just think of how wonderfully unique each one is in the vast and mysterious universe! Now, let's paint some happy little stars to celebrate their beauty.
The relationship between the mass of a black hole and its density is that as the mass of a black hole increases, its density decreases. This means that larger black holes have lower densities compared to smaller black holes.
No. The sun does not have enough mass to form a black hole. A black hole does not lead to another galaxy. Anything pulled into a black hole becomes part of that black hole's mass. Even then, if Earth were to fall into a black hole the same mass as the sun it would be torn apart by tidal forces long before it crossed the event horizon.
Blackholes are not really holes, it is where a huge amount of matter has come together and has been concentrated into a very small area. Mass is related to gravity, any mass has gravity, but you don't really notice it until you have enough mass like that of the earth. There is so much mass at the centre of a black hole that even light cannot escape it's immense gravity - that's why it's black.
The radial distance of the event horizon increases as more mass falls into a black hole. According to the Schwarzschild radius formula, the radius of the event horizon is directly proportional to the mass of the black hole, so as more mass accumulates, the event horizon expands outward.
The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.
It depends on which is nearer. The huge mass of a black hole would overwhelm the planets mass, so this would not make much difference in terms of which would be drawn in first.
A black hole becomes stronger as it increases in mass, which results in greater gravitational pull. When matter falls into a black hole, it adds to its mass, making it "stronger" in terms of its gravitational influence on surrounding objects.
The object swallowed by the black hole is destroyed; its mass is added to the mass of the black hole.
A small area of immense mass in space from which nothing can escape is called a black hole. Black holes are the most mysterious and the strangest objects in the sky.
The relationship between the mass of a black hole and its density is that as the mass of a black hole increases, its density also increases. This means that a black hole with a higher mass will have a higher density compared to a black hole with a lower mass.
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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.
Your "weight" is the magnitude of the gravitational force between you and another mass. -- In deep space, far from any other mass, the gravitational force between you and any other mass would be very small, but never zero. -- Near a back hole, the gravitational force between you and the black hole would be (gravitational constant) x (your mass) x (black hole's mass)/(your distance from the black hole)2
We more or less have. We have found stars at the center of the galaxy orbiting an object that seems to be rather small, but has a mass about 4 million times the mass of the sun. The only think we know of that could be that small with such a large mass is a black hole. Because no light escapes from a black hole, however, it is nearly impossible to detect one directly.