'Year 2022' to test Stephen Hawkings' theory?

- Future Science-KR Chowdhury

The little James Webb Space Telescope has finally been launched. This telescope will provide a wealth of information to the world of science in 207. There is no horizon to the universe, but human beings will be able to get information about the universe which is located at the boundary of the universe, that is, approximately 14.5 billion light years away. Most importantly, the observation of the James Webb Space Telescope will provide data to test the various theories offered by the world-renowned scientist Stephen Hawkings. Stephen Hawkings, the famous scientist who died in 2013, surprised the medical world by living a long life. In the same way, by giving new concepts concerning the universe, physicists were given a unique twist. Stephen Hawkings has questioned the existence of God since the earliest times of the creation of the universe. Hawkings also made that prediction. How true would Stephen Hawkings' prediction of the universe be? 'Year 202' will give the answer to scientists!

Person one: The possibilities are many

Stephen Hawkings 'Big Bang', Black Hole Area Theorem, Hawking Radiation, Information Paradox, Primitive Black Hole, Multiverse, Chronology Protection Conjecture / Chronology Preservation Predictions, No Creator / No Creator and many human future. The Big Bang is known as the Big Bang. Stephen Hawkings suggested the possibility of a primitive black hole being created immediately after an event like the Big Bang in point-point segregation. The theory of primitive black holes, created in the early stages of the creation of the universe, seems to be proving to be true in the year 205. Stephen Hawkings' 16th prospect is going to come true after 3 years. In the 19th century, Stephen Hawkings and his PhD student, Bernard Carey, proposed a fictitious black hole. In which the possibility of primitive black holes coming into existence immediately after the Big Bang was shown. It was also said that 'dark matter' was responsible for the creation of ancient black holes. In the 19th, the possibility of the existence of an invisible object in the universe, that is, invisible and only perceptible, invisible matter 'Dark Matter' was introduced. Scientists from the Astrophysics Laboratory at Yale, the University of Miami and the European Space Agency (ESA) have developed a new model of how the early universe could have been formed. This model shows that "the first stars and galaxies may have formed around primitive black holes, which had the potential to grow into supermassive black holes by feasting on the gas and stars around them or by merging with other black holes."

Stephen Hawkings: The True Heir to Albert Einstein

World War II was raging, and the world-famous physicist Stephen Hawkings was born on January 6, 1914. On March 19, he obtained a doctorate in cosmology based on Albert Einstein's "General Theory of Relativity". He, along with another well-known scientist, Roger Penrose, presented a research paper on the 'Gravitational Sigularity Theorem'. In which black holes and other phenomena were predicted. One of these predictions is Hawkings radiation. He was the first to combine quantum mechanics and Albert Einstein's "General Theory of Relativity" to give a theory about the creation of the universe. His last research paper was published in 2012. In his research papers presented during his lifetime, Stephen Hawkings made ten predictions concerning the origin of the universe and the various structures of the universe. Of these, four predictions have been verified by scientists. Which seems almost true. The term is used almost exclusively because 'to pass a theory with one hundred percent marks' requires more evidence.

NASA's unique 'James Webb Space Telescope' is set to become operational in 205. Scientists will receive more data pertaining to the universe. Based on these data, scientists will have the opportunity to test the various possibilities outlined in Stephen Hawkings' theory and accept it as a foolproof theory. When Stephen Hawkings presented his doctoral thesis, there was a heated debate between two theories concerning the creation of the universe. One of these theories is known as the 'Big Bang'. While the second theory is prevalent as the 'steady state'. The common denominator between the two theories is that "both theories accept that the universe is expanding." But how is the expansion going? The 'steady state' theory failed to explain it. Its probabilities, in its mathematical model, showed conflicting results. Following the introduction of Stephen Hawkings, scientists adopted the 'Big Bang Theory' globally to explain the creation of the universe.

Dark Matter: A riddle without a solution

Stephen Hawkings states that in the earliest moments of the creation of the universe, that is, 12.5 billion years ago, after the Big Bang, a "cluster" area with additional forces was created. The 'Gathedar' area may have turned into a black hole when it collapsed. Hawking called the primitive black hole. Many scientists say that most of the matter in the universe, that is, about 5% of the matter is in the form of dark matter. So far no evidence of dark matter has been found. Also, no telescopes or instruments on Earth have been found to have dark matter. On the other hand, there are many black holes in the universe. Several pieces of evidence have been found. When Stephen Hawkings introduced the existence of primitive black holes, it was not given much attention by the scientific community. But now it seems that Stephen Hawking's theory, with a few modifications, could prove to be true.

A research paper has been presented by Priyamvada Natarajan, a professor of physics and astronomy at Yale University. Priyamvada Natarajan states that "the creation of the universe must have created primitive black holes in primary schools one and a half times the size of our sun." He adds that "if indeed primitive black holes existed, then primitive black holes could prove to be the 'seed' for the creation of all the supermassive black holes in the universe today." A giant black hole also exists at the center of our galaxy. Observations of NASA's 'James Web Space Telescope' could provide information about the earliest black holes formed 15.5 billion years ago today. Physicist Priyamvada, in presenting his theory, says that 'the nature of dark matter and the deepening of the formation / evolutionary stage of black holes is an exciting experience.' At the present stage, the relationship between dark matter and primitive black coal blackholes is an unsolved riddle for the cosmologists.

James Webb Space Telescope and Lisa

Did a black hole that was created at the time of creation of the universe really exist? The only answer is the James Webb Space Telescope. How did the first stars and galaxies in the universe come into being? The job of finding it is to use the James Webb Space Telescope. In the coming decade, the European Space Agency has announced that it will launch a scientific mission called 'Lisa'. 'Lisa' is the acronym for 'Laser Interferometer Space Antenna'. If primitive black holes had been created in the early moments of creation in the past, two or more black holes merging into each other, the gravitational waves signal would have been captured by 'Lisa'. Lisa's observations will be useful to test Stephen Hawkins' theory.

The James Webb Space Telescope will primarily look at the universe through the eyes of an infrared. Currently the Hubble Space Telescope captures images of the real light of the universe. This telescope is also capable of taking pictures of light with ultraviolet wavelength. But is not capable of taking a picture based on infrared waves. The light-absorbing area of ​​the James Webb Space Telescope is much wider than that of the Hubble Space Telescope. In addition, since it is so far away from the Earth, it is possible to look far into space. Observations from the James Webb Space Telescope will also reveal the existence of 'dark matter'. It should be remembered that the amount of visible matter in the universe, (which is made up of atoms and sub-atomic particles) is less than five percent. Dark matter holds the various galaxies together in their place like glue. Mathematical calculations show that "if dark matter did not exist in the universe, the galaxy would have disintegrated and disintegrated in the universe as it orbited its center."