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ABOUT the METHODS of GENETIC ANALYSIS for STUDY of
PLANETSа ORIGIN
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The given analysis has the purpose
- to show genetic interconnection of mechanical parameters of the heavenly
sky bodies derived from envelopes, thrown out by star, and passed stage
planetary nebulas, in order to have a possibility for restore on it a main
outline of process of evolution of starry-planets system. The separation of envelopes
from a star happens owing to change of modes of atom-building under an
operation of a jump of neutrino pressure in a zone of stellar transformation
(ZST), under an outside envelope of a luminary, where radial forces arise,
directed from its centre, acting on elements of a mass of envelope. So, the element m of mass of
a star in her equatorial part is thrown under an operation of force of
rupture on some distanceа r > rast
аааfrom an axis of rotation of a
star and simultaneously turns in an equatorial plane on some angle jа (fig. I). |
Fig.1.а Movementа
of the thrown out single element of a mass
in polar coordinates (r; j) in an equatorial plane of star:
Vr ,а Vj = w´r,аа Fj = 2w´Vr,а
аFr = Ц w2r
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This could give the answer on question of
R.J. Teyler : УIt is necessary to clarify, what way stars lose a mass by and
will reject substance in between-star-shaped medium, synthesized in them.Ф This
author reckons that Уplanetary nebulas - more serious applicants for being a
place, where Уthe useful output (exit)" of elements happens ...
Planetary nebulas are objects consisting of a star, enclosed gas envelope,
which was doubtlessly thrown out earlier from a star.Ф After V.V. Sobolev УAstrophysicsФ, the study of modifications of a
spectrum of a dense envelope of the УNewФ of Hercules has shown, that the
mentioned envelope can be presented as "a disk", gyrating around of
a hot star with a velocity of the order of 500 km/s, with availability in an
envelope of clots of a substance... |
The mechanical parameters of the Solar system
in a view of they genetic analysis
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With help of the genetic analysis of the Solar system mechanical parameters
it were scrutinized in first time the angular velocities of celestial bodies
in comparison of own rotation with turning around. At enormous their
incongruous, as by the Neptune, Uranus, Saturn, Jupiter, at once may be
exposed a faded stars because they could not to be formed from thrown down
starry covers. The structures and quantities of the earth group planets rotation and
circulation mechanical parameters, as it was found, cannot belong to the
system of singular evolving star Ц the Sun, but it reflects the existence and
interaction of double star. It became evident that the supposition that the
Sun is a single star doesnТt allow to solve the problem of the origin of the
Solar system. In fact, among sunny derivatives must be those celestial bodies
that rotate more slowly than the Sun (during more 25 astronomical days). It
is Mercury, Venus and Moon. But the Earth and Mars, which rotate during about 1 astronomical day,
are the derivatives of the Jupiter, captured by the Sun. Therefore the last
stage of Solar system development is considerably tied with the evolution of
the double-star system Jupiter-Sun: this demonstrates by mechanical
parameters of their derivatives and other facts. Among them Ц the usurpation
of the third sunny derivative the Moon by the sixth JupiterТs derivative the
Earth. It was founded one-significantly that starry life flies in a broken
voice and has a cyclic character on account of interruption of cosmogenesis
and change of regime of natural nuclear synthesis by leaps and bounds. Then a number of stages of starry development and quantity of
derivativesа cosmic bodies appear
stipulated by number of steps of transition to new qualitative structures of
atomТs basis in a moment of forming of last element in a period or row. The regularity of this process for different components of double star
has a peculiarities connected with distinctionа of their mass and capacity to light,
increase of itТs velocity of rotation, change of spectral types of itТs
eradiation and replace of zone of stellar transformation deep from surface. The equatorial portions of covers, thrown off by star, are reforming
(during about 500 million years) into secondary bodies-satellites with
complicating of chemical elements composition and increasing of genetic own
gyration and rotation around at next in turn of cycle numberаа (tableа
3). And the spectral type of starry eradiation is determined by the number
of synthesized period: the Sun as a typical star of the Main Sequence
completed 5 periods (was established by geological data Ц see tableа 4) and coloured into 5-th type Ц G. Therefore equivalency in conditions of secondary bodies origin could
not be realized through the different qualitative composite of their matter
and through the genetic difference in mechanical parameters of their rotation |
.
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Table 3 |
PARAMETERS of STARRY
EVOLUTION of JUPITER and itТs DERIVATIVES
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N of period of
synthesisаааааааааааааааааа |
J u p i t e
rаа beforeаа e j e c t i o nаа ofа аc o v e r nextа inа
turn |
Spectral type of eradiation ofа star on each stageаааааааааааааааааааааааааааааааааа |
Dа eаа
rаа iаа vаа
aаа tа iаа
vаа eа s |
Dates bln years ago |
|||
|
with mass from MJ |
with period
of rotation
around star in
hoursааааааааааааааааа |
||||||
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|
|
|
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Callisto |
11.9 |
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|
1 |
2.11 -2.15 |
9,39 Ц 9,91 |
0,43 |
|
5.10-5 |
400.5 |
|
|
|
|
|
|
0 |
Hanimed |
11,5 |
|
|
2 |
1.80 Ц 1.90 |
5,64 Ц
6,80ааааааааааааааа |
1 |
|
8.10-5 |
171.7 |
|
|
|
|
|
|
B |
Europe |
10.8 |
|
|
3 |
1,54 Ц
1,64 |
3,50 Ц
4,40 |
2 |
|
2,5.10-5 |
85,2 |
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|
|
|
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|
A |
Io |
9,5 |
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|
4 |
1,34 Ц
1,44 |
2,50 Ц
2,90 |
4ааааааааааааа |
|
3.10-5 |
42,5 |
|
|
|
|
|
|
F |
Mars |
8.0 |
|
|
5аааааааааааааа |
1,28 Ц
1,35 |
2,10 Ц
2,50 |
5,8 |
|
аа 1.10-4 |
30,3 |
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|
|
|
|
|
G |
Earth |
5.2 |
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|
6аааааааааааааа |
1,14 Ц
1,15 |
1,50 Ц
1,56 |
9 |
|
1.10-3 |
19ааааааааааа |
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|
|
|
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K |
Amaltea |
3.3 |
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|
7аааааааааааааааааа |
1,04 |
1,125 |
14,5 |
|
1.10-8 |
11,95 |
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|
1 |
1 |
17,8 |
M |
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Table 4 |
PARAMETERS of STARRY
EVOLUTION of the SUN and itТs DERIVATIVES
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N of period of synthesisаа |
SUN before ejection of cover next in turnааааааааааааааааа |
Spectralа type ofааа eradiation of star on each stage |
Dа eа rа
iа vа aа tа iа
vа eа s |
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|
Radius of sphereаа through Rй |
Mass through Mй |
Angular velocityа of own rotation in 1/s.10-7 |
with mass from Mй |
with genetic period of rotation around the star in astronomical days |
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|
1 |
1,64 |
4,4 |
2,4 |
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x -а p l a n e t |
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|
|
|
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|
╬ |
|
|
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2 |
1,31 |
2,27 |
7,2 |
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carbonaceousа asteroids |
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|
|
|
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B |
1,5.10-9 |
? |
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3 |
1,01 |
1,04 |
25 |
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silicicа asteroids and Moon |
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|
|
|
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|
A |
3,7.10-8 |
27 - 29 |
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Afterаааа
theаааа phenomenonаааа ofаааа
absorptionааа byа ааtheааа
SUNааа ofаааа outlandishаааа mass |
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|
1,64 |
4,4 |
2,4 |
|
iron asteroids |
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|
|
|
|
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|
1,5.10-9 |
~300 |
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4 |
1,55 |
3,72 |
3,0 |
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Venus |
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|
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F |
1,6.10-7 |
224 |
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|
1,28 |
2,09 |
12,5ааааааа |
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Mercury |
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|
|
|
|
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|
1,5.10-7а |
88 |
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5 |
1,18 |
1,64аааааааааааааа |
?(20) |
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future Volcano |
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|
|
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G |
? |
?(50) |
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1 |
1 |
28.6 |
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Table 5 |
The SUN with itТs
DERIVATIVES as REGARDS to GALAXY PLANE
at contemporary
data
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Derivatives at nextа
in turnа of they origin, with known а
orbital parametersаааа
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Eccentricity of orbit e=f/a |
Big half-axis of orbit УaФ from Rй |
Half of focal distance of ellipseа УfФ from Rй |
Angle of inclination of planes of sunny equator and orbit ofа his derivativeа inаа
d e g r e e s |
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|
to Galaxy plane |
to plane of base of cone, formed by flows of
etherТs neutrinos as guiding of this cone * |
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x-planetаааааааааааааааааааааа |
? |
? |
? |
? |
? |
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carbonaceous |
0,093 (0,08-0,12) |
~327 |
30 |
39,░5 Ц 1,░5=38░ |
+1░33Т |
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cilicic and Moonаа |
0,017 |
215 |
3,6ааааааааа |
39,░5 |
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|
Venus |
0,007 |
155 |
1** |
39,░5 Ц 3,░5 =36░
|
isа receivedаа 0░ |
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Mercury |
0,206 |
83 |
17 |
39,░5 -а 7░ = 32,░5аааааа |
-3░36Т |
|
Sunny |
|
|
|
39,░5 -а 7░ = 32,░5 |
-3░36Т |
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equator *а The Sun with itТs ejected cover are
attracted by vacuum funnel to base of cone of corporeal angle which formed by
etherТs neutrinos flows, streaming to centre of certain mass, visible or
invisible. Elliptical type of orbit arises, owing to the inclination of itТs
plane from plane of circular coneТs base, as a conic section of these conic
flows of ether. Then elliptic orbits have so much the eccentricity than they
have much the angle of inclination from the base of circular cone. **ааа This
orbit may be account as such circular - with one focus due it is disposed
within of 1 sunny radius, as regard to which it is observing the inclination
of other orbits. ааааааааааа ааааааа In result it may be shown
that the angle of inclination of sunny axis of own rotation to the axis of
Galaxy rotation (as perpendicular to vector of circuit speed of the Sun)
represents 32,░5, to Galaxy plane represents 57,░5 аand angle of inclination of axis of
conical flows, steadily supporting the Solar system in inclined plan, is
distant onа ~3,░5 from
the first and second and representsа
~36░ аand 54░
accordingly. A little deviations of Sun
rotation axis with regard to axis of etherТs cone provoked small turnings of
corresponding angles of inclination of orbitТs planes of ejected covers and
planets, formed from them, to the Galaxy plane. аSo the inclination of sunny equator at angle
ofа 7░ аto the ecliptic plane and at angle of 32,░5
to the Galaxy plane remained from a moment of ejection of cover, formed the
Mercury. Before this, during of cover ejection, formed the Venus, the
inclination of sunny equator was found under angle of ~ 3,░ 5 to
the ecliptic plane and ~ 36░ to the Galaxy plane, i.e. the axis of Sun
rotation nearlyа coincided with axis of
invisible cone with itТs inclination ofа
~а 54░ to the Galaxy plane. Vinogradova Maria Grigoryevna Russia,а Saint-Petersburg Phone/faxа 812. 4473539 e-mail: qwefox@pochta.ru |
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