The fourth approximation.

In Kalagia it is spoken, that in a bottom{basis} of build-up of the universe the binary principle lays - two parts make a unit. The solar system also has binary structure. Planets, satellites, suns have the double-twin. In the middle, between half-and-halfs, there is the medial planet being a bottom{basis} of binary system (fig.41 ). In ancient Sumer and termed her{it} is " a medial planet ". A title of this planet - "Nabiru". Also, at ancient, this planet is known under titles - "a planet of punishment", "a planet the Lucifier". The planet perform a role of a huge mirror and all celestial objects on a firmament (except for the Sun) we visualise in a reflex view. Character of a motion of a reflex signal on a firmament gives effect of heliocentricism of the solar system, as well as effect of gyration of satellites around of planets. On the physical plot of our attitude the complete double-twin of our Earth is twirled precisely oppositely concerning the Sun. To reach there usual mechanically it is impossible. The signal from one link of binary structure goes to a median link, is reflected and goes to the second link.
On fig.42 the principle of transmission{transfer} of a signal from one link to another is shown.

Let's give the citation from Kalagia: " Each Shape of the Substance parted into two local Bands of Simularities - the active and passive. These bands have no personal qualities, therefore they cannot be classified as the man's or female beginning or as hot light and cold dark. It is necessary to understand, that there is primely a Band of the active processes and the Band of passive processes. The concept "prompt" и "slow" here too will not approach - these qualities are conventional, they are suitable only for special cases in both Bands. Each of Bands will consist of two simularities converted by an intermediate in identity, by a principle: " Generating and generated are identical ". It as though specular reflection of one in other. The given moment is important at detection of the double-twin and a finding of finding of him, by finding in him ".

The geometry of fields of a merkaba fully complies with the given citation. At a merkaba one plate is charged positively, and another negatively. It corresponds{meets} to passive and active Bands of simularities. On fig. 43 the merkaba in which merkabas of the first and second types are combined is figured. The section A - A is shown geometry of a field which both halves are specular reflection each other, that also corresponds{meets} to standings of Kalagia.

In figures surveyed above we figured the Sun located above a planet. It was done{made} for the greater obviousness and simplicity of fathoming. But, actually, the space between a planet and the Sun is not rectilinear, and is incurvated on an arc, thus the star and a planet are in one plane, hence, the signal from a luminary to a planet goes on an arc, but by the observer is identified as rectilinear (fig. 44).

For the further model operation we shall give the following citation: " Density waves of Time are spread in all legs{parties}, at microlevels chaotically, but being telescoped in space of the Universe, form huge standing waves of life, as rectilinear vortexes of grains of the Fire and Light, generating infinite quantities{amounts} of metagalaxys, drawn up in the exact octahedrons, in these vortexes of standing waves of density of Time. Octahedrons, in turn, will consist of set of the hexahedrons upbuilt in huge aggregations of galaxies. Hexahedrons, in the lines, will consist of pentahedrons of aggregations of star systems. Planetary systems are agglomerated in tetrahedrons; planetary bodies will preferentially consist of trihedral crystal lattices of atoms; atoms, as is known, are twirled in the planes, particular by a direction of travel of a density wave of Time and phase bias (pressure of a density wave of Time), stipulated by an entropy of substance ".

So, the metagalaxy is the exact octahedron (fig. 45 ). The galaxy is a hexahedron or a cube. Hexahedrons are drawn up in an octahedrons (fig. 46). A hexahedron it is possible to combine (fig. 47 ) from pentahedrons. The model of a hexahedron folded of pentahedrons can be received, if six merkabas, each of which in the plot is a quadrate, to combine in a cube. Electromagnetic fields under pressure each other will be prolated in centre (fig. 48 ). The pentahedrons, falling one leg{party} of a cube, there can be the many quantity{amount}, as though inserted each other (fig. 49 ). Lines of the bases of pentahedrons also are boundaries{borders} of star systems.

Planetary systems will consist from tetrahedrons. In the warrant{basis} of a tetrahedron the triangle lays. The triangle is a segment of a merkaba. Segments place, as shown in fig. 50. On рис.43 we already saw, how merkabas of the first and second types are joined, such merkaba is a ring. Such rings there can be a little, located in one plane, one inside another. On fig. 50 the segments consisting of two ring merkabas are shown.

Segments incorporate in a strip on which there is an information, being planetary system. On edges of each strip there are the discharges being for the observer the suns. Fields of a segment of a merkaba are extend to centre of galaxy and, thus, the fashion forms a tetrahedron (fig. 51 ).

Our planetary system belongs to star system of Pleiads. The system of Pleiads includes eight planetary systems. The solar system is the eighth planetary system, and a solar ring, accordingly, the eighth star. All system of Pleiads is twirled on a plane of a segment around of the star (gyration actual). The star is termed - Alkiona. The motion of the information on a plane of a merkaba has the vortex character, that is the movement of planet occurring to displacement. In the beginning the planet comes into star system, wave-shapedly goes in it{her}, displacing to opposite edge, and then transfers in following star system. Eventually, the planet comes in central star system, the bound with galactic centre. For our plane of a hexahedron the central star system is a system of a Sirius. This star also is centre around of which we are twirled (fig. 52 ).

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