Mathematical model of the Space
1.
The basic properties of Vacuum
The not indignant Vacuum is the homogeneous body having properties of
inertia and absolute elasticity. An elementary source of indignations is the
spherical wave. Speed of a wave in Vacuum is 299792,5 km/s. The homogeneous
body, which compressibility of the order of 2,9 billion times below
compressibility has such speed of a wave flown down, if only is pertinent to
compare its characteristics to characteristics of a glass. The not indignant
Vacuum has a zero level of density Р0 (P zero). The zero level of density cannot be
considered as the density equal to zero. It is a zero level around of which
fluctuations of density as compression and underpressures of Vacuum are made.
The homogeneous body has unique property which essence consists that at interaction of the centre of a spherical wave with a falling wave from other source there is their self-synchronization, and the new source of spherical waves which amplitude is equal to amplitude of a falling wave is born. This source looks like modulation of a falling wave. But under certain conditions it gets independence. At interaction of set of spherical waves the Vacuum gets the phase characteristic. If to accept, that measurement of a spherical wave proportionally to its length it is possible to draw a basic conclusion: in any volume of space the quantity of spherical waves aspires to infinity, and their measurement aspires to zero. Certainly, at each moment of time waves of the lowest measurement are born, and quasi-elastic force of Vacuum is shown in the pure state. But the person lives in intermediate measurement and can observe quasi-elastic force of Vacuum only in its phase display.
To understand an essence of the phase characteristic of Vacuum and its
communication with quasi-elastic force, it is necessary to enter concept about a
dual nature of Vacuum. This notion conditional, and it is possible to use this
concept only in indissoluble communication with physical essence of the
phenomenon. Each point of space of the not indignant Vacuum contains equal
quantities positive M+ and negative M- weights. M+
is the carrier of a field of a positive mark, and M- is the carrier
of a field of a negative mark. The M+ and M-, which have
identical properties of inertia and absolute elasticity, have the common centre
of pulsations and pulse synchronously in an antiphase. During pulsations wave,
displacement of M+ and M- equally to half of length of a
wave. Quasi-elastic force is consequence of interaction of M+ and M-,
which aspire to be pulled together up to quantitatively equal correlation.
Quasi-elastic force is counterbalanced by force of inertia.
Having assumed, that M+ and the M- have property of
elasticity, we should name and a nature of quasi-elastic force of each of them.
According to physical essence of the phenomenon it is necessary to present M+
as volume of space where spherical waves of infinitesimal measurement are
exclusively in a peak phase, conditionally positive. And the M-
is necessary for presenting as volume of space where spherical waves of
infinitesimal measurement are in a negative phase. In the pure state the M+
and M- exist only in the centre of pulsations at the moment of a peak
phase and in a peak surface of a wave. At the moment of other phases of a wave
the correlation of amount of spherical waves of infinitesimal measurement, which
are taking place in a positive peak phase, and amounts of spherical waves of the
infinitesimal measurement, which are taking place in a negative peak phase,
corresponds to a phase of a wave. Quasi-elastic force is caused by interaction
of spherical waves of indefinitely low measurements taking place in an antiphase.
And wave displacement of M+ and M- appears as a stream
moving with speed of a wave of sources of the spherical waves, which are taking
place in a peak phase. Proceeding from this representation, the M+ is
the carrier of a field of a positive mark, and the M-
is the carrier of a field of a negative mark.
Density M+ and M-, present in the given volume of
space, generally are not equal. Р+0 and Р-0
- zero levels of density M+ and M- around of which
fluctuations of density of these weights with amplitudes ±Р+max and ±Р-max can be made.
The spherical wave, in which
volume there are no other fluctuations, represents elementary pulsar P-0
(P-zeros). Frequency P-0 is defined by quantity of pulsing Vacuum. Greatest from
considered pulsars is Universe, PUn. In volume of the Universe there
are pulsars of smaller length of wave P№, which also are not
elementary. In the essence, they the same Universe, but other scale. Addition of
wave movings of pulsars of smaller scale in waves of pulsars of the greater
scale creates all observably physical picture of the Universe.
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