Many scientific works and treatises have been written about gravity, but none of them illuminates its very nature.
Whatever gravity really is, it should be recognized that official science is completely incapable of clearly explaining the nature of this phenomenon.
Isaac Newton's law of universal gravitation does not explain the nature of the force of attraction, but establishes quantitative laws. It is quite enough for solving practical problems on the scale of the Earth and for calculating the motion of celestial bodies.
Let's try to descend into the very depths of the structure of the atomic nucleus and look for those forces that generate gravity.
The planetary model of the atom, or Rutherford's model of the atom, is a historically important model of the structure of the atom, proposed by Ernst Rutherford in 1911.
To this day, this model of the structure of the atom is dominant and most of the theories have been developed on its backbone that describe the interaction of the main particles that make up an atom (proton, neutron, electron), as well as the famous periodic table of elements by Dmitry Mendeleev.
As the conventional theory says, “an atom consists of a nucleus and electrons surrounding it. Electrons carry a negative electrical charge. The protons that make up the nucleus carry a positive charge.
But here it should be noted that gravity does not have any connection between electricity and magnetism - this is just an analogy in the work of three power models, no electromagnetic devices record the gravitational field, and even more so its work.
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We continue: in any atom, the number of protons in the nucleus is exactly equal to the number of electrons, therefore the atom as a whole is a neutral particle that does not carry a charge. An atom can lose one or several electrons, or vice versa - capture someone else's electrons. In this case, the atom acquires a positive or negative charge and is called an ion."
When the numerical composition of protons and electrons changes, the atom changes its skeleton, which constitutes the name of a certain substance - hydrogen, helium, lithium … A hydrogen atom - consists of an atomic nucleus carrying an elementary positive electric charge and an electron carrying an elementary negative electric charge.
Now let us remember what thermonuclear fusion is, on the basis of which the hydrogen bomb was created. Thermonuclear reactions; fusion (synthesis) reactions of light nuclei that occur at high temperatures. These reactions usually proceed with the release of energy, since in the heavier nucleus formed as a result of the fusion, the nucleons are more strongly bound, i.e. have, on average, a higher binding energy than in the initial merging nuclei.
The destructive power of the hydrogen bomb is based on the use of the energy of the nuclear fusion reaction of light elements into heavier ones.
For example, the fusion of one nucleus of a helium atom from two nuclei of deuterium atoms (heavy hydrogen), in which huge energy is released.
In order for a thermonuclear reaction to begin, it is necessary for the electrons of the atom to combine with its protons. But neutrons interfere with this. There is a so-called Coulomb repulsion (barrier), carried out by neutrons.
It turns out that the neutron barrier must be solid, otherwise a thermonuclear explosion cannot be avoided.
As the great English scientist Stephen Hawking said:
In this regard, if we discard the dogmas about the planetary structure of the atom, one could assume the structure of the atom not as a planetary system, but as a multilayer spherical structure. There is a proton inside, then a neutron layer and a closing electron layer. And the charge of each layer is determined by its thickness.
Now let's return directly to gravity.
As soon as a proton has a charge, then it also has the field of this charge, which acts on the electron layer, preventing it from leaving the limits of the atom. Naturally, this field extends far enough beyond the atom.
With an increase in the number of atoms in one volume, the total potential of many homogeneous (or inhomogeneous) atoms also increases and their total field naturally increases.
This is gravity.
Now the final conclusion is that the greater the mass of the substance, the stronger its gravity. This pattern is observed in space - the more massive a celestial body - the greater its gravity.
The article does not reveal the nature of gravity, but gives an idea of its origin. The nature of the gravitational field itself, as well as the magnetic and electric fields, has yet to be realized and described in the future.
Mikhail Zosimenko