Literary Yard

Search for meaning

By: Nate Tulay

“Are the ripples in spacetime created by merging black holes aspiring differently if you are much closer, say within a couple of light years verses the few billions that we been detecting.” – StarTalk

In simple English, are the gravitational waves sent out by the merging of two black holes being experienced differently by observers depending on how far they are from the merging black holes?? Which means if humans were on a planet that is 2 billion light years away as well as another planet that is 100 billion light years away from the merging black holes, would their experience of the gravitational waves sent out by the merging black holes be the same or not?

The answer is the experience would be the same if the two different observers who are observing in different locations were indeed within the same solar system or red-blooded galaxy. And it would be the same because the gravitational force of the black hole at the center of that galaxy is strong enough to make all celestial objects within that galaxy orbit around it by making their stars orbit around it. Which means the gravitational force of the black hole at the center of red-blooded galaxies is constant on all celestial objects within their galaxy given that all of the solar systems within that galaxy orbit around it at a constant speed in spite of the difference in distance between them. Which means the force of gravity on celestial objects is constant in space so long as the celestial objects’ resisting force is not strong enough to completely resist the gravitational force that is impressed on them. Which also means the ripple force would be constant on objects 2 or 100 billion light years away from the merging black holes in the same solar system the same way the momentum falling force of gravity is constant on objects with mass heavy enough not to be affected by air or wind resistance on the surface of the earth in spite of the distance between their falling point. Which means if the resisting force of planets within a solar system cannot completely match a star gravitational force that is impressed on them all of the planets are going to orbit that star at the same constant speed in spite of their mass and the difference in distance between them and the Star since all celestial objects with mass heavy enough not to be affected by air or wind resistance fall at the same constant speed on the surface of the earth in spite of the difference in distance in the falling point and mass.

Which means in space, moons orbit planets at a constant speed and planets orbit stars at a constant speed and stars orbit bigger stars at a constant speed and mega stars orbit the central black hole of red blooded galaxies at a constant speed as a result of the force of gravity in spite of the difference in mass and distance between the celestial objects in their orbiting system and red blooded galaxies. Which means there are 6 constant orbiting systems within a red blooded galaxy: moons around planets, planets around stars, stars around bigger stars, stars around the central black hole, black holes around black holes, and mega stars and black holes around the black hole at the center of red blooded galaxies.

And because the gravitational force of the black hole at the center of Red Blooded Galaxy is constant on all celestial objects within its system that can’t completely resist the force that is being impressed on them, the ripple in Spacetime created by merging black holes within a solar system or at the center of Red Blooded Galaxy would be constant on all of the objects within that solar system, or Red Blooded Galaxy; and thus the same for the two different observers 2 and 100 light years away. Which also means if the ripple is a product of the central black hole within that red-blooded Galaxy merging with another black hole it will indeed be constant on all of the objects within that red-blooded galaxy and the two different observers whether they are 2 or 1 trillion light years away since the gravitational force of the black hole at the center of the red-blooded galaxy is strong enough to make all of the solar systems in that galaxy orbit around it at a constant speed. #ETinfinity

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