Could you give the volume at rest of a neutron ？

Dear professor,

I know that my questions may be "shocking" for some in the sense that people are not familiar with such a type of comparison in physics, particularly for example my comparison between the mass of the neutron and the mass of the universe but very soon I will post my new articles relating to my questions that I asked on RG. I only ask you to be a little patient. My articles will explain through calculations and supporting formulas the link between these two masses. Concerning the neutron I gave its radius which is 0.8775 fm and the electronic proton 0.87564 it is true that they are infinitely small compared to the radius of the universe but my theory for physics is a little exotic in the sense that It's a little out of the ordinary. My two abstracts are already on RG via the IJDSSS link. I hope that the Inderscience editor of the IJDSSS journal will finally publish my two full- texts and there I explain the link between the three measurements of the proton via physics beyond the standard model while pointing out that I work in cosmology and astrophysics via their new models. But I already find that the Planck results of 2018 as well as the results of the muonic experiments on hydrogen and deuterium are perfectly linked unfortunately people do not notice it because in my opinion there is exoticism and The majority of people have difficulty accepting this.

The mass of the universe and the mass at rest of a neutron are linked conceptually through their roles in astrophysics and cosmology, but they operate on vastly different scales and contexts.Neutrons, as constituents of atomic nuclei, have a rest mass of approximately 1.675 x 10−27 kg, which is fundamental to the structure of matter. In contrast, the mass of the universe encompasses all forms of matter and energy, estimated to be around 10^53 kg, including dark matter and dark energy.Neutron stars, which are remnants of supernova explosions, exemplify this relationship as they are incredibly dense objects primarily composed of neutrons. The mass of neutron stars can reach about 2-2.5 solar masses (approximately 4x10^30 kg), illustrating how individual neutrons contribute to larger cosmic structures.In summary, while the mass of a neutron is a fundamental building block in the universe's matter composition, the total mass of the universe reflects a complex interplay of all matter and energy forms. Thus, they are connected through their roles in the fabric of cosmic structure but differ significantly in scale and implications.

Dear Miguel Martinez Albaladejo,

The black hole of Cygnus X-1 contains, according to my theory for a new physics beyond current physics, exactly ten to the power of 58 neutrons. This makes the black hole of Cygnus X-1 a fundamental constant belonging to a cosmological scale and the mass of the neutron a fundamental constant on the quantum scale. I found the connection between the two fundamental constants. My article describing this new relationship appears in my preprint on RG. The title is "A new formula for the Schwarzschild mass leads to the calculation of the absolutely exact number of neutrons of the black hole of Cygnus X-1".

Best regards.

Dear Jamil,

Thank you for the answer and article, I will have a look.