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Gravity can escape from black holes. Why?

Black holes in the universe capture and control countless celestial bodies. The matter in the world moves closer to the position of the black hole in the universe, approaching the black hole without being swallowed by the black hole. The celestial bodies take root here and live a peaceful, equal, stable, orderly, and normal life. The celestial bodies move rhythmically and regularly like music, and the spiral arms of the galaxies in which the celestial bodies move are like the sinews of a cow. There is a general repulsive force on both sides of the disk, so passing stray stars or stray galaxies that collide with the galaxy will not be able to enter and will bounce them away, allowing them to leave.

At the exit of a black hole in the universe, there is so little matter that you can’t smell it, you can’t see the visible light it emits, you can’t hear the discernible sound it emits, and you can’t get enough to eat. it. Nothing larger than matter, including light, can escape because its internal escape velocity needs to be greater than the speed of light. Outside, objects have a chance to escape. So let's look at gravitational waves. In 1915, Einstein proposed the field equations of general relativity. A few months later, based on a simple approximation, he arrived at a wave solution to the motion of space-time, which we now know as gravitational waves. What’s really interesting is that gravitational waves travel at the speed of light. As we know, light is often called a light wave, and its smallest unit is the photon. However, for gravitational waves, from a theoretical point of view, their constituent units should also be gravitons.

But with current detection technology, we have only detected gravitational waves, not smaller gravitons. However, we can imagine that gravitons travel at the speed of light. .....Let's see, if gravitational waves or gravitons are born inside a black hole, they can't come out because their speed is the speed of light. In addition, for the gravitational waves detected so far, at least from a fitting perspective, the gravitational waves generated are also a certain distance from the black hole event horizon. That is to say, the gravitational waves generated are outside the black hole event horizon, not within the black hole event horizon. Its inside, so it's possible to escape.