The discovery of relativity at the beginning of the pastcentury has become a significant breakthrough in the study of physical phenomena associated with the study of the speed of light and space-time events. To date, it is reliably known that Einstein's theory of relativity is not a direct achievement only of this brilliant physicist, but rather unites a number of discoveries in this respect of several physicists, of which we can single out Lawrence and Poincaré. A well-known Austrian physicist was only able to put together the disparate elements, having formulated the greatest postulate that was the beginning of a completely new approach to the study of spatial worlds.
So, the theory of relativity of Einstein soundsit is quite difficult, and in a simpler language, it is a physical theory that considers the spatio-temporal properties of processes occurring both on earth and in space. Since these processes directly depend on factors such as the gravitational field and the speed of movement of a physical object, this allows us to call it relativity. Depending on the point of the report, we see completely different time structures that can move from one report system to another when the speed of light is reached. Einstein's theory is based on two main principles: the constancy of the speed of light in a vacuum, and the equality of all inertial systems of the report. These two axioms underlie the formulas for the transition from one inertial system to another - the so-called Lorentz transformation curve, on which Einstein's theory of relativity is based.
However, in recent years, modern scientistsmake more and more discoveries that destroy the famous theory, gradually collecting evidence of its fallibility. A few years ago, a group of Australian scientists led by J. Wobb, studying the origin of light from galaxies farthest from our solar system, came to the conclusion that the alpha-number is not a constant constant, as it was believed in modern science. It turns out that its value can vary depending on the point of space with which it is calculated. So far, this has not been proved at the scientific level, but if this theory is confirmed, Einstein's theory of relativity will be practically crossed out. In addition, as a result of recent discoveries, versions are also put forward that the speed of light can also be different, which, on the whole, will jeopardize the basic postulates of modern physics.
Today, scientists have come close to the evidencethe existence of parallel worlds, where the string theory of the universe begins to collect more and more evidence in its favor. And this is completely beyond the scope of study, where there are still many mysteries that must be solved by modern humanity. Everything flows, everything changes. In place of one discovery comes other, more accurate and correct. In the early twentieth century, a revolutionary breakthrough in physics at that time was made by the special theory of relativity of Einstein, who received for it the Nobel Prize and worldwide recognition. However, at the moment, in the light of recent discoveries in the field of astrophysics, new devices have appeared that can more accurately determine certain phenomena occurring in space, as a result of which the old theories are replaced by newer ones.
Thus, the general theory of relativityEinstein still remains universally recognized, but many scientists in the study of parallel worlds are already trying not to always rely on its postulates. How to know, maybe we will witness the birth of a more interesting and correct theory of the interaction of space and time through the prism of the speed of light and the point of the report.