Abstract
Determination of the structural foundations and parameters of the Universe is an important urgent task since it enables us to understand and explain the structure and basic parameters of the material world. Herewith, it is necessary to be aware of modern problems of physics and possible ways to solve them. Among such problems, hypotheses concerning dark matter and the energy of the Universe occupy an important place. However, the determination of their on the basis of modern theories still leads to abstract equations that do not give concrete results; therefore, they have a level of hypotheses. A number of initial scientific propositions based on this abstract of mathematical dependencies have controversial meanings. Elimination of this disadvantage is the main goal of the work performed. Its main difference and scientific novelty are the justification of the energy parameters of the gravitational field of the Universe, the magnitude of which can replace its dark energy and dark mass. The solution to this problem is justified by strict physical dependencies, which are obtained on the basis of fundamental physical constants. It is an urgent and important scientific and applied problem, since it develops knowledge about the gravitational field and the material world in general. The performed work is based on the methods of deduction and induction in the research of the material world based on the application of the well-known reliable laws of physics and the general principles of the development of the theory of knowledge. Other research methods are still unknown, since the work performed is associated with new scientific discoveries, the search for which is difficult to formalize by technique methods. The results of the study consist of the analysis of wave, force and energy parameters of the relict gravitational field of the Universe. The calculated value of this energy is 1.58 × 1070 J. This energy is enough to cover the amount of dark energy and mass in the Universe, which casts doubt on their existence. Conclusions: This paper can supplement previously performed research on the dark mass and energy of the Universe, which requires further for their reconciliation.
Highlights
Determination of the structural foundations and parameters of the Universe is an important urgent task since it enables us to understand and explain the structure and basic parameters of the material world
It is necessary to be aware of modern problems of physics and possible ways to solve them
The possibility of achieving the goals set is justified by the new scientific knowledge obtained in recent years in the field of studying the gravitational field: 1) the discovery of gravitational waves and the processes of their formation in the Universe, which was awarded the Nobel Prize in Physics in 2017 [10], the values of their wave parameters were not determined
Summary
Determination of the structural foundations and parameters of the Universe is an important urgent task since it enables us to understand and explain the structure and basic parameters of the material world. It is necessary to be aware of modern problems of physics and possible ways to solve them Among such problems, hypotheses concerning dark matter and the energy of the Universe occupy an important place. In recognition of the importance of these works, the 2019 Nobel Prize in Physics was awarded to James Peebles “for theoretical discoveries in the field of physical cosmology” [2]. In his works, he calculated the spectrum of the relict radiation fluctuations, adding to his model ordinary matter with the cold dark matter as well as dark energy with negative density [2]. With an accuracy of ≈0.1%, it was obtained that the total energy of the observed Universe consists of 69% of dark energy, 26% of dark matter, and only 5% of ordinary baryonic matter
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