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2.1. Measurements of the worlds

Electromagnetic spherical (radiated pulsars) and spiral - spherical (radiated particles of substance) waves move through area of the centre of pulsations considered P-0_№ in all directions. By a principle of superposition of waves displacement of М⁺ and М^- in all points of space is determined by addition of displacement from all working waves. This principle operates and in centre P-0. All electromagnetic waves pass through it, not changing the characteristics. Exception makes the moment of concurrence in this centre of a peak phase of a wave with a peak phase of same mark P-0. At first sight the probability of such concurrence is close to zero. But it is not so. Moreover, at the moment of concurrence of phases of waves their peak value is leveled. That is, there is a synchronization of spherical and flat waves. If the amplitude of a coming nearer flat wave (from the removed source) is higher than amplitude P-0 its amplitude grows together with growth of density of a phase of space in the field of the interaction, the caused displacement of a phase in volume of a flat wave. P-0 goes together with a phase of space towards to a peak surface of a wave, testing relativistic increase of the period of pulsations down to synchronization with a wave at the moment of interaction with a peak phase. Thus the flat wave gets modulation as P-0, entered in a peak surface of a wave (see 1.3, fig. 2). Similar process occurs, if amplitude P-0 is higher than amplitude of a flat wave. Then the flat wave goes in the field of the displacement of a phase caused by wave P-0. At approach of a peak surface of a flat wave centre P-0 of their amplitude are leveled, and interaction occurs on earlier described script. Thus P-0 gets initial modulation of a peak surface of a flat wave from which there was an interaction. Thus, by means of mutual modulation two wave systems get the identical information contents.

Spherical wave P-0 scans environmental space and brings the information to the centre of pulsations where prints merge in the uniform block of the information on sources of waves, creating thus a unique picture of dynamics of prints. The missing wave contains the same prints. We shall name their reflected neutrino. But their information contents, is already added during interaction in the centre of pulsations with the information on a condition of all space. The maximal size of a print defines the size of dynamic area in centre P-0. The dynamic area represents, as a matter of fact, set neutrino from the biggest up to the smallest, placed one to another, each of which pulses with the frequency. We shall name this area Central neutrino, as against the main Thing neutrino P-0. Thus, physical characteristics of a spherical wave allow to receive keep summarize and radiate the information in Space. Hence, neutrino has the qualities inherent in Reason. Moving neutrino has relativistic dependence of the period of pulsations on speed of movement. At the speed of movement equal to speed of a wave, the Reason is in the "inhibited" condition, outside of time. But the information in Space continues to be radiated as zero waves of a pulsation pseudoneutrino, its last instant condition, or as electromagnetic waves of electrons (positrons). Flat waves from other pulsars cooperate with Central neutrino. Relative displacement structural making Central neutrino the, it is more, than less than their size. In result the wave gets modulation Central neutrino, and Central neutrino gets modulation of a wave. If the amplitude of a flat wave exceeds amplitude Central neutrino is born Central neutrino the greater size into which earlier existing Central neutrino enters a structural part.

Let's accept for the characteristic of measurement neutrino its peak size

R₀ = C Т₀/4 (173)

Then unit of length will be length of a wave any way chosen neutrino, and a time unit - the period of its pulsations. All other dimensions of physical characteristics will be derivatives from these two.

Measurement of substance is equal to measurement neutrino from which it was given birth at collision of peak surfaces of waves of the opposite mark modulated by them. In an observably part of Space the universe, P_Unhas the maximal measurement. Everyone neutrino any measurement can be presented as the universe filled with the worlds, living the, life in the time scale. Number of measurements is indefinitely, as aside is higher P_Un, and in the lowest side. In each volume of Space the quantity of measurements aspires to infinity, and the length of a wave aspires to zero.

Let's designate measurement of the physical world in which we live L₀₀, and standard measurements of the connected worlds in a direction of lower measurements L₁₀ and further L_{№ 0}, and aside higher measurements L₀₁ and further L_0№.

Existence in one volume of space neutrino and has substances of identical measurement by consequence their interaction with formation of standing waves. Material structures of different measurements do not form steady communications owing to occurrence of arising the dashes. Thus there is a separation of substance of different measurements.

Inside structures of one measurement there is an interaction of substance and neutrino one measurement, distances taking place on fixed standing waves. In result are born neutrino and substance of lower measurement. Measurement of this substance has a quantitative maximum, which is defined by standard distance of interaction of the first substance. In volume of substance of the lowest measurement there are similar interactions, and the substance of lower measurements is born. Thus, there, is an infinite number of standard measurements.

The amplitude of waves, radiated neutrino, decreases in a radial direction proportionally to distance. If to accept, that on distance S₁ = 1/4·R₀_ν₁ = CT_ν₁/4 wave neutrino ν₁ has the maximal value of density of М⁺ and М^- (S₁ = 1) on distance S the amplitude of density is equal

P_S^± = S₁/S · P_S1^± (174)

Neutrino which birth is initiated by this wave, have amplitude

P_{2 max}^± = S₁/S · P_S1^± (175)

And unit of measurement R₀_ν₂ = S₁/S · R₀_ν₁ = R₀_ν₁²/S (176)

Scale factor born neutrino will

К_М_ν_2/1 = R₀_ν₂/ R₀_ν₁ = R₀_ν₁/S (177)

It is similarly possible to define scale factor given birth neutrino if a source of electromagnetic waves is the substance (electron)

К_М_ν_/_e = (R₀_e/S)² (178)

Where R₀_e - unit of measurement neutrino (deformation neutrino in structure of electron neglect), from which educated electrons of material.

The atom consisting of a nucleus and electronic environments is the structure stabilizing a condition of substance. Electronic environments of atom have the lowered level of density of Vacuum and serve as concentrators not only electrons, but also slow neutrino. Neutrinos cooperate with next electrons on an environment and settle down in the middle in the field of the lowest power level. Neutrino identical with electrons measurements are synchronized with them during mutual moving by means of running standing waves and form stable structure which generates substance of the lowest measurement.

Having accepted as a known condition radius of electrons r_e=2,82·10^-15m, it is possible to define roughly radius given birth on an electronic environment neutrino the lowest measurement. Believing, that the radius of electron is equal to radius of rotation of units, we shall define measurement neutrino substances in which there is a person and about which it receives the information by means of sense organs,

R₀₀= 0,5 r_e= 1, 41·10^-15m (179)

In material a distance between electrons and neutrino on electronic shells is

S₀₀ = πa₀/ 2 (180)

Where а₀ = 5,29·10^-11m – radius of the first orbits of bor

S₀₀ = 3,14·5,29·10^-11/2 = 8,3·10^-11m (181)

Scale factor of substance L₁₀ be relative L₀₀

K_M10/00 = (R₀₀/S₀₀)² = 2,89·10^-10m (182)

Size generated neutrino first undermost measurement

R₁₀ = K_M10/00 R₀₀ = 4,07·10^-25m (183)

Radius of electrons r_e₁₀= 2R₁₀ = 8,14·10^-25m (184)

Period of pulsations neutrino L₀₀ T₀₀ = 4R₀₀/C = 4·1, 41·10^-15/ 3·10⁸ = 1,88·10^-23c (185)

Period of pulsations neutrino L₁₀ T₁₀ = K_M10/00 T₀₀ = 5,43·10^-33c (186)

Angular velocity of precessions axes of rotation a core of a nucleon, as mechanical system, can be recorded Ω = FR / Jω (187)

Where R - distance from an axis of rotation up to a point of the appendix of force F, creating unbalanсe of system,

J - the moment of inertia of system concerning an axis of rotation,

ω = С/R (188)

J = ∫R²dM = R²M (189)

F = M (190)

Here M - feature of value of revolvinging mass.

Thence, Ω = MR / R²M · R/C = 1/C = Const (191)

Thus, angular speed of precessions axes of rotation of a core of a nucleon does not depend on measurement of substance. Therefore and the radius of the first orbits of Bohr is size a constant, not dependent on measurement of substance.

Similarly we shall define characteristics of the second lowest measurement born on electronic environments of atom of first lowest measurement L₀₂ (see. Tab.1). Atoms of the second lowest measurement have very low stability owing to rather big (in scale of measurement) the sizes orbits of Bohr, therefore in it and lower measurements nuclear communications prevail

At calculations of standards neutrino the supreme measurements it is necessary to take into account the sizes electrons and neutrino, which become commensurable with radius of the first orbits of bor. More exact calculation demands to take into account also change of the sizes neutrino in structure of nucleons and electrons and their frequency characteristics. During interactions electrons and neutrino on an electronic environment will move with speeds, which will provide their dynamic synchronization by means of a running standing wave. Therefore the given simplified calculations can be used only for comparison purposes.

Electromagnetic waves, radiated by electrons, have the maximal value of amplitude on distance 2R_0ν from an axis of rotation. Therefore the distance between electron and neutrino will be

S_№ = π(a₀ – 2R_№) / 2 (192)

For adjacent measurements from (177) and (178)

K_{M№/(№ -1)} = R_0№ / R_{0(№
-1)} = (S_№ / R_№)² (193)

Thence, R_0№ = (S_№² R_{0(№ -1)})^-3 (194)

In first approximation R’_0№ = (π²(a₀ – 2R_{(№ -1)})²R_{(№ -1)}/ 4)^-3 (195)

And more exactly R_0№ = (π²(a₀ – 2R’_№)²R_{(№ -1)}/ 4)^-3 (196)

Using these expressions, will define features of measurement L₀₁.

R’₀₁ = (3,14²/4·(5,29·10^-11 – 2,82·10^-15) ²·1,41·10^-15)^-3 = 2,14·10^-12m.

R₀₁ = (2,46(5,29·10^-11 – 4,28·10^-12)²·1,41·10^-15)^-3 = 2,01·10^-12m. (197)

Thence, r_e₀₁= 2R₀₁ = 4,02·10^-12m. (198)

S₀₁ = π(a₀ – 2R₀₁) /2 = 3,14/2·(5,29·10^-11 – 4,02·10^-12) = 7,68·10^-11m. (199)

K_М_01/00 = R₀₁/ R₀₀ = 2,01·10^-12/ 1,41·10^-15 = 1,43·10³ (200)

T₀₁ = 4 R₀₁/ C = 4·2,01·10^-12/3·10⁸ = 2,68·10^-20c. (201)

Similarly we will define features of measurements L₀₂ and L₀₃.

R₀₂ = 0,64·10^-11m. r_e₀₂= 1,28·10^-11m. S₀₂ = 3,28·10^-11m. K_М_02/00 = 4,5·10³. T₀₂ = 8,5·10^-20c. (202)

R₀₃ = 2,06·10^-11m. r_e₀₃= 4,12·10^-11m. S₀₃ = 1,84·10^-11m. K_М_03/00 = 1,46·10³. T₀₃ = 0,275·10^-20c. (203)

When increase the sizes neutrino limit, to which strives distance S_№,

lim_№→_∞S_№ = 2R_№ = a₀ - R_№ (204)

lim_№→_∞R_№ = a₀/3 = 1/3·5,29·10^-11 = 1,76·10^-11m (205)

lim_№→_∞S_№ = 2·1,76·10^-11м = 3,52·10^-11m (206)

lim_№→_∞r_e_№ = 2·1,76·10^-11м = 3,52·10^-11m (207)

lim_№→_∞K_М_№/00 = 1,76·10^-11/1,41·10^-15 = 12,5·10³ (208)

lim_№→_∞T_№ = 4·1,76·10^-11/3·10⁸ = 0,235·10^-20c (209)

Obviously that measurement L₀₃ can exist only in dynamic mode, when electrons and neutrino change on electronic shell in area of increased importances of level to density of Vacuum. Herewith they make displacement, providing their synchronizing running standing wave. The Material of measurement L₀₃will for this reason be sloppy. The Maximum stability possesses the material of measurement L₀₂, which has the most value of energy relationships of particles. The velocity of move of time in material back is proportional by Т_№.

Optimums for existence of the Reason embodied by substance have measurements L₀₀, L₀₁ and L₀₂. It is logical to assume, that these measurements are born at interaction between themselves neutrino higher measurement, taking place from each other on stable distances. Such interaction is possible at their rapproachement during integration in the structure incorporated by system of standing waves. We shall name these neutrino ν_β_, measurement L_β. Then at distances of interaction S_β_/01 will be born neutrino measurements L₀₁, and at distances of interaction S_β_/01 will be born neutrino measurements L₀₂.

If to assume, that ν_β is the Reason of the person located on a vertical axis of its physical body roughly it is possible to define measurement of Reason on the basis of statistics of the distances appropriate to optimum conditions of dialogue two persons. We shall accept, that at distance of interaction 1m are born neutrino measurements L₀₁, then characteristics ν_β will be (see 176)

R_β = (S_β· R₀₁)^-2 = (1,0·2,01·10^-12)^-2 = 1,42·10^-6m (210)

T_β = 4R_β/C = 4·1,42·10^-6/3·10⁸ = 1,89·10^-14c (211)

K_М_β/00 = R_β/R₀₀ = 1,42·10^-6/1,41·10^-15 = 10⁹ (212)

Universality neutrino with such characteristics is, that they also can give rise neutrino to measurements L₀₂. The distance of interaction two person, thus should make

S_β_/02 = R_β²/ R₀₂ = (1,42·10^-6)²/0,64·10^-11 = 0,315m (213)

Physiological features of people not only suppose an opportunity of dialogue on such distances, but also are stimulated emotionally. Emotional stimulation has the reason interaction of the person with the worlds of the lowest measurements. About character of these interactions it will be told further.

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