Gravitational waves or ripples in spacetime could point to the place of the Big Bang.

The point where the Big Bang happened should be in the middle of the universe. But the fact is that is the exact point. Where the Big Bang happened could also be moved. Or the universe around that point is moved asymmetrically. The idea is that some remnant of the Big Bang is a supermassive black hole.

And that remnant involves information about the Big Bang itself. But the problem is that we should find the first black hole that formed just after the Big Bang. That is a very difficult thing to do in real life. All black holes look similar.

So researchers should find the right black hole. And then they could listen to the echoes from the universe's first moments. The thing is that the first gravitational waves. That left from the Big Bang traveling the outside the edge of the universe. The shockwave that formed in the Big Bang can call, as the "edge of the universe". When we are thinking about the form of the most outpoint of the universe there should be a small density to another point in the universe.

Because the front of the material is traveling the shockwave there is a gravitational wave. That thing makes the edge of the universe a little bit thicker than the material behind that wave. But there is the possibility that we could see the remnant of the Big Bang by using another method. There is a possibility.

That the same part of the radiation that the source is in the Big Bang jumps inside the universe. Black holes can turn the direction of gravitational waves. But there is a possibility that the black holes were far behind the gravitational waves. and even if gravitational radiation jumps between black holes we should have some method to separate those gravitational waves from disturbing gravitational waves, that are released later. The problem with this kind of research. is how to find the right gravitational waves.

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