Ampere's error, or the fifth force of fundamental interactions   The Standard Model of physics considers four fundamental interactions: gravitational, electromagnetic, strong, and weak. But in objective reality there is also a magnetic interaction, which propagates through magnetic charges, which are called gravitons.  Gravitons are mini vortices of ether, magnetic dipoles and bricks of matter. The energy of the vortex generates a unidirectional movement of the ether between the poles, as a result of which the ether is absorbed by one pole and thrown out by the opposite pole. This is how the forces that we call magnetic forces are formed. Thus, Ampere's hypothesis that the magnetism of substances is determined by microcurrents is not true, because two hundred years of physicists' searches for Ampere microcurrents have practically not been crowned with success. The detected currents were so small that they could not provide magnetism for even the smallest magnets. Einstein, together with de Gaza, developed a hypothesis where the magnetism of ferrimagnetic substances is generated by the spin of a valence electron. But the spin of an electron is its rotation around its own axis. And in order to obtain the required magnitude of magnetism, it was necessary for the electron to rotate with a linear speed equal to 300 s, where c is the speed of light, which did not correspond to any theory. Subsequently, P. Dirac proposed to calculate the electron spin taking into account the relativistic Schrödinger wave equation. But science does not stand still. The Japanese have photographed a hydrogen atom, where the orbits of an electron revolving around the nucleus of the atom are clearly visible. And to see orbits in the photo, and persistently call them orbitals, is already schizophrenia. Thus, the wave properties of the electron have sunk into oblivion along with the hypothesis of Einstein and de Gas. The truth in this matter was discovered by the Swiss political and military lea ... Читать далее