Swallowing even light There will be no return if man goes to the black hole!

On the left, an optical image from the Digitized Sky Survey shows Cygnus X-1, outlined in a red box. Cygnus X-1 is located near large active regions of star formation in the Milky Way, as seen in this image that spans some 700 light years across. An artist’s illustration on the right depicts what astronomers think is happening within the Cygnus X-1 system. Cygnus X-1 is a so-called stellar-mass black hole, a class of black holes that comes from the collapse of a massive star. New studies with data from Chandra and several other telescopes have determined the black hole’s spin, mass, and distance with unprecedented accuracy.

Black holes, which cannot be emitted even by light due to high gravity, have always amazed the scientific community. Assoc in Physics According to Professors Leo Rodriguez and Shanshan Rodriguez. They also explain what would happen if man ever descended into the black hole.

Although there are many different types of black holes in the universe, they can be divided into two main categories. They have a non-rotating positive or negative charge that weighs almost as much as the sun. The second group weighs millions or billions of times more than the Sun. There is a huge difference not only in weight but also in the total area of ​​such black holes.

A supermassive black hole with millions to billions times the mass of our sun is seen in an undated NASA artist’s concept illustration. In this illustration, the supermassive black hole at the center is surrounded by matter flowing onto the black hole in what is termed an accretion disk. This disk forms as the dust and gas in the galaxy falls onto the hole, attracted by its gravity. Also shown is an outflowing jet of energetic particles, believed to be powered by the black hole’s spin, according to a NASA news release. REUTERS/NASA/JPL-Caltech/Handout THIS IMAGE HAS BEEN SUPPLIED BY A THIRD PARTY. IT IS DISTRIBUTED, EXACTLY AS RECEIVED BY REUTERS, AS A SERVICE TO CLIENTS. FOR EDITORIAL USE ONLY. NOT FOR SALE FOR MARKETING OR ADVERTISING CAMPAIGNS – TM3EB791HKS01

Reaching the event horizon or event horizon of black holes means that even light has no return. Any object that reaches this region disappears irreversibly from the universe. Even the fastest moving light in the universe has no escape from this grip.

The incidence horizon of black holes as heavy as the Sun is only about 3.2 km. At the same time, the incidence horizon of large black holes is 1.17 crore km. Assuming that a human falls into a black hole as heavy as the sun, if the head were to reach the black hole first, the difference between the head and the toes would be 1000 billion times the amount that the black hole would pull. This is effectively dragging man down.

Many of the black holes found in the universe are surrounded by high-temperature dust and gases. This makes access to the black hole even more impractical. Suppose a black hole with no stars or planets is found near the less dangerous one. In the current situation, it is only conceivable that man would go to black holes that emit nothing, including light. Thus Leo Rodriguez and Shanshan Rodriguez remind us that even if a man were to go into a black hole, he would not find and experience any information coming out of the black hole.

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