Scientists claim that zooming black holes can travel at 10% the speed of light

Scientists claim that zooming black holes can travel at 10% the speed of light, Scientists have recently calculated that black holes can reach speeds of up to 10% of the speed of light following a collision. This is much faster than previous estimates, which put the maximum speed at around 3% of the speed of light.

The new calculations were made by researchers at the Rochester Institute of Technology in New York. They used computer simulations to model the collision of two black holes, each with a mass of about 30 times the mass of the sun. The simulations showed that the black holes could recoil away from each other at speeds of up to 28,562 kilometers per second, which is about 10% of the speed of light.

The recoil is caused by the emission of gravitational waves during the collision. Gravitational waves are ripples in the fabric of spacetime that are produced by massive objects. When two black holes collide, they emit a lot of gravitational waves, which can give the black holes a kick.

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The new findings suggest that black holes could be much more mobile than previously thought. This could have implications for our understanding of the evolution of galaxies and the distribution of matter in the universe.

It is important to note that black holes cannot actually reach the speed of light. This is because nothing with mass can travel at the speed of light. However, they can get very close to it.

The discovery of zooming black holes is a reminder of the amazing things that are still being learned about these mysterious objects. As our understanding of black holes grows, we are sure to learn even more about their capabilities and behavior.

Previous estimates put the maximum velocity that could be reached from the recoil kick effect at around 5,000 kilometers per second. This was based on the assumption that the black holes were perfectly spherical and that they collided head-on.

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However, the new simulations by the researchers at the Rochester Institute of Technology took into account the fact that black holes are not perfectly spherical and that they may not collide head-on. This allowed them to calculate a higher maximum velocity of 28,562 kilometers per second.

The reason why the new simulations produced a higher maximum velocity is that the asymmetry of the black holes and the non-head-on collision can result in a greater transfer of momentum. This means that the black holes can recoil away from each other with more force, which can result in a higher velocity.

The new findings are still being verified by other researchers, but they suggest that black holes can be much more mobile than previously thought. This could have implications for our understanding of the evolution of galaxies and the distribution of matter in the universe.

Source: Google News