For the first time a true image of the ultra-mass black puncture. Do you agree with Einstein and Hawking hypotheses?
Scientists believe that in every large galaxy of the universe there is a huge black hole – a region that is working to devour anything including light – which has made many scientists call the black hole the name of the "No Return zone"
Definition of black hole
Black holes can be defined as an area in space with a large mass in a small size. Any material inside the black hole is susceptible to compression under the influence of its own attractiveness. This increases the intensity of the substance "body" due to the overlap between particles of atoms and the lack of space between molecules. This results in an uncanny gravitational force that has the potential to attract any object that passes near the hole no matter how fast that body is.
This led many scientists to seek to learn more about the nature of these holes and study them for years by trying to capture images of these "fatal" blocks using the camera, but this process was impossible due to lack of light inside them.
So far our understanding of black holes is based on the models and performances that are produced by scientists and artists. Although scientists are unable to see the black hole, they have the ability to discover the stars and the gases that revolve around them through radio waves that can be captured by a high-capacity telescope. This, in turn, has shaped our perception of the nature of the black hole as a dark sphere surrounded by a glowing, luminous-shaped ring.
The most prominent theories regarding black holes of the physicist Albert Einstein and the world will be back to the King's death in 2018. Where Hawking assumed, "black holes are not black, as illustrated by the illustrations," because there are some particles inside the black hole that might have the ability to escape.
According to Einstein's General theory of relativity, the black hole is too large to move too fast to distort spacetime (temporal space), which ensures that no particles will emerge or move as a result of the gravitational force between them. They also create a unique shade with a perfect circle-the dark surface of which is in the middle.
The scientists are also expected to unveil the first image of the black hole in a global project called "Event Horizon Telescope: EHT", the first event of its kind to reveal the first image of the super-mass black puncture 10-Apr next. These images are the result of two-year monitoring.
The project (EHT) relies on a collection of data obtained through a global network of telescopes tasked with collecting information on black holes since 2006. Black holes are also considered super-mass (Supermassive), such as other black holes but these holes are formed as a result of falling stars on each other at the end of their life cycle. The size of the average is estimated to be a million times greater than the sun.
A photo of two high-mass black holes will be detected during the conference (EHT),
(Sagittarius a) from the Milky Way galaxy or from the nearby Msije 87 (Virgo), where it is estimated that this black hole is four million times larger than the sun and about 26,000-years of light from the Earth. The Messier Galaxy is 87 billion times greater than the sun and about 54 million light years away from the Earth.
As the astrophysicist of Oxford University said; Josephine Peters (Josephine Peters) for business News (Business Insider): "As the cloud of gas approaches the black hole, its speed increases rapidly and its temperature rises, and it glows more" shine "so that the cloud becomes more rapid and heat, which makes it close enough towards The black hole which in turn works to pull it in the form of a thin arc "
Although black holes are not as close as they are to the ground, they are one of the greatest mysteries of science since determining how they truly look is an unprecedented step towards understanding the nature of the whole universe.
The question that arises: are the images to be displayed agree and confirm the hypotheses of Einstein and Hawking or will they contradict all these assumptions?
