Георгий Попов – Оrigins of the material world (страница 2)

The Structure of the Monad

So, if one imagines a figure eight made of ribbon with two sides, black and white. The first half of the eight has two surfaces, an external white and an internal black, after crossing the connection point of the two halves, in the second half – the external surface becomes black, and the internal white. Fig. 1. This is a conditional diagram of the space monad. Here, let the black surface correspond to the right-rotating energy A, and the white to the left-rotating energy B. According to the monad scheme, two independent cycles can be identified, which manifest when activated by external sources. In these cycles, the following components of energy can be identified – centripetal energies – ACS and BCS, and respectively, their centrifugal energies – ACB and BCB. According to the cycle of UEC movement in the monad scheme with a singularity point, ACS transitions into ACB, which then transitions into BCS, and that into BCB, and then, around again. In space, in undivided cycles of the monad, there is a continuous synchronous process of conversion of these energies. Meanwhile, the period of conversion, or frequency of conversion, has a certain upper limit. In space, energies of both cycles pulsate equally, mutually coordinated, and simultaneously. Here, the movements of centripetal energies relative to each other have opposite directions, just as the movements of centrifugal energies relative to each other also have opposite directions. This is due to the fact that energies A and B, by their nature, are mutually opposite and capable of compensating each other, leading to a reduction or complete compensation of space disturbance when combined at a specific point in space. Considering that monads are indistinguishable, all space is a single pulsating whole.

Fig. 1. The Unified Energy of Creation in the Structure of the Monad. A – alpha cycle. B – beta cycle. ACS and ACB – centripetal and centrifugal energies of cycle A. BCS and BCB – centrifugal and centripetal energies of cycle B. 1 – manifested segment of energy. a – right cycle of the unfolded monad. b – left cycle. 1 – conditionally manifested monochrome petal.

The Structure of Material Space

In the monad, the opposite energies of the right and left cycles continuously transition from one state to another. The centrifugal shifts to the centripetal and vice versa, the centripetal shifts to the centrifugal, passing through the point of singularity. The monad is capable of unfolding into two independent cycles of energy transformation – the alpha cycle and the beta cycle. Fig. 1. Each cycle of transformation is a process of continuous transition from one state to its opposite, that is, from centripetal to centrifugal and back through all intermediate states. This process, unlike ordinary rotation, can be called inversion. The properties of this monad contain the potential for structuring the entire material world, which can be called the pulsating genome of space. And real space is not a strict structure woven from such monads, but a certain space in which continuous processes of inversion occur, where one cannot specify the exact location of a monad. This is a kind of virtual structure that is continuously generated in boundless space. Moreover, the continuously pulsating space is absolutely synchronized with the ongoing processes of inversion. The continuity of space is achieved both by the synchronization of the inversion processes and by the harmony of their interconnection. Considering the structure of the elementary cell, such space can be represented as a certain conditional hexagonal lattice, which reflects the corresponding symmetry of the space itself. The ocean of original energies of space has a certain spectrum of vibrations, from high to low frequencies, which manifest through monochrome components in the process of their activation, that is, their extraction from the ocean of pulsating space. From the activated energies, pairs of energies can be extracted, on the basis of which stable manifested structures can exist. The first pair will be the dominating centripetal and its subordinate centrifugal energy of the same cycle, whether it be alpha or beta. The second pair will be the dominating centripetal energy of one cycle and the subordinate centrifugal energy of the second cycle. Thus, polar particles of different sizes can be obtained, depending on their frequency spectrum.

Forms of Existence of Monad Energies

The two opposite basic energies, alpha and beta, can have different statuses relative to the unmanifested state in space. 1- they can be in a manifested state in the form of material particles; 2- they can be in a conditionally manifested static state as a reaction of space to manifested energies; 3- they can be in a state of conditionally manifested dynamics, as a reaction of space to any form of movement of manifested energy; 4- they can be in a state of conditionally manifested through kinetic interaction processes. Photons are a special form of conditionally manifested energies of space, which are independent energy structures in a continuous sequential cycle of transformations. All basic particles consist of manifested energies that form their mass. Disturbances of space induced by manifested particles are realized through the activation of conditionally manifested energies, both static and dynamic. The translational movement of particles in space initiates additional compensatory dynamic activation. The concept of 'manifested' and 'unmanifested' is merely a scale of gradation of realizable states of the same energy. Conditionally manifested energies of space, in most cases, are an integral part of material particles. The interaction of material particles occurs through conditionally manifested energies. Material particles, by their movement in space, activate compensating energies of space, thus, a particle is an active participant in the activation of conditionally manifested energies, for example, a photon, or vortex processes in space. As for the particles themselves, stable structures will be particles not only based on two layers of opposite energies, centrifugal and centripetal, but also based on three and four such paired layers on the principle of a matryoshka doll. These are stable structures, in which the main principle of existence is that the outer centripetal energy of any layer of the particle does not allow the centrifugal energy, as if captured by it, to escape. Particles can attract each other, in an attempt to form at least a conditional monad, that is, a self-sufficient structure in the space of energies by the number of constituent energies in order to minimize the disturbance of space. The properties of space are realized through gravitational, magnetic, and electric phenomena. Centripetal energies are responsible for magnetic properties. Centrifugal energies are responsible for electrical properties. The reaction of space to the density gradient of its constituent energies is responsible for gravitational properties.

Symmetry of Space

Due to the dense packing of virtual monads, the symmetry of space has the potential of a hexagonal lattice.

Conditionally Manifested Monad

If in a certain volume of space the entire sum of manifested energies of the monad cycle is concentrated in corresponding proportions, both centripetal and centrifugal, then this is a favorable realization of manifested energies, which minimizes disturbances of space. Such a realization can be called a conditionally manifested monad. It can be composed of both manifested and conditionally manifested energies. The realization of a conditional monad is the manifestation of a relatively stable structure made of manifested energies. Atoms can be considered as examples of such conditionally manifested monads.

Properties and Relationships of the Basic Energies

The cyclic nature of the inversion process in closed space, the complementary properties, compatibility, and interconnection of the basic energies, generate both the discreteness and continuity of space. Based on basic energies, all fundamental material particles are formed, from which atoms are composed. The original density of space according to the basic components of UEC, represented in the cycles of inversion, is the only absolutely balanced state in our material world. An increase in the density of basic energies in a specific volume of space when they manifest, as in the case of the manifestation of fundamental particles, requires a decrease in density in the surrounding space, which leads to the stretching of the adjacent space. This creates a gravitational field around the material particle. The vortex properties of the material particle, its rotation due to centripetal energy, cause compensatory activation of similar centripetal components of space. This manifests magnetic properties. The priority of the basic centripetal energy that forms the material particle generates the phenomenon of charge, manifested in the form of activation of the compensatory centrifugal energy according to the monad cycle, expressed in the redistribution of the density of its energies around the particle. The formation of a charge of a particular sign can be called the polarization of space. In this case, alpha and beta particles generate opposite polarizations relative to each other. The mutual compensation of induced opposite charge polarization processes by material particles, as a form of reducing the degree of space disturbance, determines the mechanism of their mutual attraction. When forming a particle, the manifested centripetal energy from space can exist indefinitely only in a vortex state, and only when this vortex rotates around the centrifugal energy, thereby keeping it from centrifugal tendencies. Meanwhile, the diameter of the centripetal energy vortex can vary from particle to particle, depending on its basic frequency and the density of its components, as well as the size of the centrifugal energy core. In this case, the centripetal energy vortex never breaks, except in the state of induced melt. Centrifugal energy has different manifestations and possibilities. In kinetic processes and braking phenomena, it can become the driving force in the movement of the ruptured cycle of energy transformation. The interaction of basic energies is manifested in both static and dynamic processes. The apparent independence of centrifugal energy is conditional; it is always in conjunction and under the guardianship of centripetal energy. Even in the case of its translation in space, it moves in accordance with the cycle of transformation. The entire variety of interplay of energies on each other arises during the movement of particles and photons. The basis of these reactions is either a polarization or vortex phenomenon.