Newton and Einstein gravity does not work in the super strong gravitational field of a black hole inside its gravitational well in a quantized vacuum

 

Leonov Vladimir

January 2025

https://orcid.org/0000-0001-5270-0824

https://www.researchgate.net/profile/Leonov-Vladimir/research

For citation:

Leonov Vladimir. Newton and Einstein gravity does not work in the super strong gravitational field of a black hole inside its gravitational well in a quantized vacuum. – Preprint: ResearchGate, January 2025, Download PDF: DOI: 10.13140/RG.2.2.27646.50240

Abstract

            The theory of quantum gravity for the first time considers the state of a black hole inside a quantized vacuum consisting of 4D-tetraquarks. This fact gives us new analytical possibilities for establishing new fundamental laws when Newton's and Einstein's gravity does not work near a black hole. Paradoxically, we have established that near a black hole there is a decrease in gravity to zero on its surface. This effect can be explained by the mass defect of a body falling into the gravitational well of a black hole inside a quantized vacuum. The super-strong gravitational field of a black hole has the ability to tear mass into individual quarks, where on the surface of the black hole the mass disappears completely. As a result of the mass defect, we have a black hole glow limited to a sphere of 10 gravitational radii. Cosmologists have also observed a decrease in gravity for binary stars in the vicinity of a black hole. The quantum theory of black holes inside a quantized vacuum is a breakthrough in cosmology.

16 pages, 5 figures.

Key word: black hole, mass defect, quantum gravity, quantized vacuum, 4D-tetraquark, gravitational well, new gravity laws.

Content

1. Introduction

2. The formation of a black hole is the result of spherical deformation of a quantized vacuum

3. Gravitational diagram of a black hole inside a quantized vacuum

4. The mass of a body decreases to zero when it falls into a black hole

5. Classical force of gravity in a weak gravitational field

6. Newton's law of gravitation in relative units

7. The force of gravity decreases to zero when a body falls into a black hole

8. Leonov's law of gravitation for a black hole in relative units

9. The function of decreasing gravity when a body falls into a black hole

10. Conclusion

References