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What is the area beyond a black hole where the black hole has stopped expanding and matter will no longer be pulled in?
Wiki User
∙ 10y ago
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
Wiki User
∙ 10y ago
Wiki User
∙ 10y agoAny mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
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What is the area beyond a black hole where black hole has stopped expanding and matter will no longer be pulled in?
There is no definite boundary for matter not being pulled toward a black hole. At large distances the effects of a black hole's gravity are not different from that of a different object of the same mass. How far out a black hole's gravity is dominant depends on that black hole's mass and its proximity to other massive objects.
What is the area beyond a blackhole where the blackhole has stoped expanding and matter will no longer be pulled in?
It doesn't work like that. A black hole doesn't expand, unless its mass increases, i.e., when additional matter falls into it. And there is no place where its gravitational pull stops - the gravitational pull goes all the way to infinity (just as in the case of any other mass).
How is the universe expanding even if atom can't be created?
It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.
If universe is expanding but mass of sun and planets is not then shouldn't gravity be reduced due to space-time and mass relation?
The answer is that the expansion of the universe is only noticeable over distances of hundreds of millions of light years or more. Over the much smaller distances found within galaxies and planetary systems its effects are negligible.
How much is the universe expanding by right now?
The Universe is expanding. That is, it is getting bigger.The Universe is expanding. That is, it is getting bigger.The Universe is expanding. That is, it is getting bigger.The Universe is expanding. That is, it is getting bigger.
What is the area beyond a black hole has stopped expanding and matter will no longer be pulled in?
it is bob
What is the area beyond a black hole where black hole has stopped expanding and matter will no longer be pulled in?
There is no definite boundary for matter not being pulled toward a black hole. At large distances the effects of a black hole's gravity are not different from that of a different object of the same mass. How far out a black hole's gravity is dominant depends on that black hole's mass and its proximity to other massive objects.
What is the area beyond a blackhole where the blackhole has stoped expanding and matter will no longer be pulled in?
It doesn't work like that. A black hole doesn't expand, unless its mass increases, i.e., when additional matter falls into it. And there is no place where its gravitational pull stops - the gravitational pull goes all the way to infinity (just as in the case of any other mass).
The expanding of matter when it is heated?
thermal expansion
How is the universe expanding even if atom can't be created?
It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.It is space that is expanding. The amount of matter doesn't necessarily increase. This means that the average density of the Universe is decreasing.
Why galaxies are going far away and the universe seems to expanding?
That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.That's because the Universe really is expanding. It started as a "big bang", where all the matter and energy in the Universe was concentrated in a tiny space, smaller than an atom - at a tremendous temperature and pressure. From there it started expanding, and continues expanding to this day.
What is the area beyond a black hole where the black hole has stopping expanding and matter will no longer be pulled in?
The ergosphere is an oblate spheroid region outside of the event horizon, where objects cannot remain stationary. While objects and radiation can escape normally from the ergosphere, there is still gravitational frame dragging of matter which is orbiting a black hole. Note: Think of the black hole's ergosphere area being like the Earth's graviational influence area of Low Earth Orbit.
Why do the exhaust gases of a rocket exert a huge amount of force?
Gas is one of the states of matter. Matter has weight and takes up space. When rocket propellants are burned or oxidized, they give off expanding gases. Since gas is matter the expanding gases exert force.
You stopped talking to this guy you were crazy for because you couldn't trust him. you talked and both agreed that you wanted back what you had. how do you get him to dump his girlfriend for you?
I have a better question... You said you stopped talking to this guy because you couldn't trust him. What makes you think you can trust him now? Or does trust no longer matter to you?
What theory states that the universe started as a ball of matter which expands and still expanding?
No such cosmological model exists. What you relate e is one description of Big Bang Cosmology (BBC), but that description is WRONG. BBC does NOT postulate that matter is expanding from a small, dense blob into empty space; rather, it describes a Universe in which SPACE ITSELF is growing at a (more or less) steady rate. Matter density is not decreasing in the way that ink density decreases as it expands into a large container of liquid; rather, the density of matter is decreasing because space is expanding as the amount of matter remains the same. Also, space is not expanding into anything, like an exploded material expands into the space around it. Space is just expanding, period. It is difficult to visualize, but the math works out just fine.
If scientists say the universe is everything and the universe is always expanding then what is the universe expanding into?
It is not exactly expanding into anything. The galaxies are moving apart from each other, from which we can infer that the universe is expanding. Theoretically, this is a result of the Big Bang, in which the universe began when all matter was compacted into a very tiny sum, and then exploded apart in a very big bang, and as a result is still expanding today.
If universe is expanding but mass of sun and planets is not then shouldn't gravity be reduced due to space-time and mass relation?
The answer is that the expansion of the universe is only noticeable over distances of hundreds of millions of light years or more. Over the much smaller distances found within galaxies and planetary systems its effects are negligible.
