What if the medium where sound propagates and the medium where light propagates are different and practically do not interact with each other in the universe? For example, the sound medium is less dense, with a lower temperature, structured from larger particles of matter with small frequencies of vibrations, etc. And, for example, the medium of light speeds is denser, more elastic, warmer and consists of the smallest energy clumps of matter with high-frequency vibrations. And each of these media comes into contact only with objects of a certain threshold of vibration frequency. Maybe that's why we, adapted for movement in the medium of the sound range, face the problems of movement already at supersonic speeds, and other forms of matter exist freely in the medium of light speeds, but in the same space as us? And we, as bodies, are in contact with this matter, but not in their environment, where the charges of our structural vibration systems interact with each other. To understand the possibility of moving at the speed of light, it is necessary to study the conditions for the existence of matter in finer media. Probably, there is also a superluminal environment and others. It becomes obvious that, overcoming the supersonic threshold of speed, for example, an aircraft makes a leap into another, "denser" atmosphere, and undergoes many shock waves of the opposition of the invasion medium with the occurrence of various phenomena.
Fig. 9. Murmuration of fish in the ocean (photoshop)
Fig. 10. Diagram of the vortex (photoshop)
Is it possible to conclude from the above considerations that any differently variable movements such as vibrations, or oscillations in the form of contraction-expansion, right-left, down-up, etc., in one phase counteract the medium, that is, radiate, and in the other phase receive absolutely the same "species" modulated radiation? But with imprints, images of events, information from the environment of the surrounding space, which is especially important at high frequencies? Such dipole signals are the source of the origin and impact on the objects of the environment of various electromagnetic fields in the form of vortices, spheres, torus, etc., with their own lines of electric and magnetic field intensities. The process resembles the breathing of an object: inhalation is the absorption of radiation from the outside in the half-cycle of oscillation or rarefaction of the medium, and exhalation in the second half-cycle is the radiation of oscillation or condensation of the medium of presence. It is quite possible that in reality the wave reflected from the obstacle has many surprises for us. Why, for example, is it not possible to assume that everything above the conventional "X-axis" emits waves, and below it receives? So much for the "information-wave" dualism. Clearly worked out for various forms of matter, individually weighted portions of the amount of energy and information given and received, the weight of the object is always stable, for example, like a proton, an electron, etc. And in case of loss or acquisition of a certain value, for various reasons, there is a transition to simpler or more complex structures of forms of matter with a corresponding loss or capture of equivalent energy. Isn't this similar to the mechanism of exchange, "communication" between the object and the matter of the space of the environment? In fact, by radiating, an object transmits all the information contained in the modulated signal about itself, its structure, and receives it back with additional modulation or "reflection" from the outside, that is, with information about other objects in the environment of space. Who said that waves are not capable of multi-channel information-energy interactions, where one radiation creates an infinite number of absolutely different and autonomous fields not only in their shape, but also in the density of charges? Isn't this one of nature's tools in creating the remarkable variety of colors of life in the universe?
Let us imagine a source of radiation or vibration in a complete "void", any matter in the form of a vortex (see Fig. 10). Let it be an elementary particle. Vortex, almost spherical, waves of radiation move away from the form of vibrations of the source into the surrounding environment. What is the mechanism of movement of these waves under these conditions? When there are no vibrations in space before the first wave of vibration of the vortex of our elementary particle. And so, the first half-period of the wave occurs as radiation, the push of a condensed portion of its own matter into the emptiness of the environment, from a particle with its own structure, charges, etc. The gradient will be enormous, as well as the supposed speed of propagation of these clumps of matter into the "void". Probably, the process itself is fleeting, but it unequivocally fills our virtual "nothing" with quite material densities of charges, broadcasting a field of very weak vibrations of the densification of matter. Finally, the radiation stops and the second half-cycle of the wave occurs – rarefaction inside the source, which is then replaced again by radiation or pressure of the charge density of the next ejection period, and so on. Cycle after cycle, the rotating internal charge energy of the matter particle itself creates a density gradient and pushes away the previous wave of the sphere with the next wave from within. It is very similar to how we inflate a balloon, when with each portion of exhalation, it becomes larger and larger, filling the space more and more. Thus, the condensation of the medium distributed around the particle turns into independent forms of matter and fills space with them for billions of years. Yes, the charge gradient in the "void" dries up quickly, especially since there are not enough sources of energy outside in our case.
But let's remember that particles such as the electron and proton are very stable. Does this mean that their own energy in the form of charges in the free state is produced by their internal structural interactions discretely and always? Quite possibly. Moreover, the idea of the origin and distribution of matter not at one point, as a result of the "Big Bang", but everywhere in the Universe and at the same time, as a seeding of "proto matter", for example, as a result of a breath of gas or the processes of compression and expansion, is absolutely real. In this case, in the presence of a multitude of electromagnetic waves and various other densifications of matter in space, with their spiral, cone, toroidal, and other vortex interactions, the velocities of wave propagation in the medium increase manifold. In such a saturated elastic medium, various newly formed bodies, objects, and elementary particles inevitably begin to interact with the energy of the same dipoles in the medium itself, intensifying their own motions or complicating their own structure, using the properties of electricity and magnetism. This is how thousands and thousands of new atoms, molecules, bodies, etc. appear.
Here we are approaching the main topic of our chapter. In the microcosm, where the size of particles, as well as their frequencies of oscillations, are calculated at thirteen and twenty zeros after the decimal point, the orbits of their motions are completely free and mobile in space both within the nucleus itself and within the atom. We know that the structure of various substances and their properties are determined not only by the number of protons, neutrons, and electrons in their nuclei and atoms, but also by the interaction of their charges with each other and with charges from the outside. There are a lot of theories about the structure of the nucleus, but we will consider intranuclear mechanisms not so much as interactions of the phenomena of electricity, magnetism and density gradients, but as the phenomena that gave rise to them – vortices and dipoles. After all, each particle in the form of a vortex dipole, moving along its orbit inside the nucleus at the speed of light, densifies the matter of the surrounding environment. The inclination of the axis of rotation of such a dipole strongly depends on the influence of charges from the outside, which means that the chaotic orbital motion of such discrete particles itself creates a spherical shell of the compaction gradient in the superposition trajectories from numerous vortex perturbations of the medium. The number of such shells depends on the number of vortex dipoles in the nucleus, that is, on the number of protons and neutrons. It should