(Vpr1 + Vpr2) • g / LimPpr = Kg • m1 • m2 / r ²
• Vpr1 Vpr2 = m1 • m2
The product of the numerical amount of space occupied by matter, equal to the number of the numerical product of the mass of matter in space, or:
Mmat = m1 • m2;
Vred = Vpr1 • Vpr2
From the above discussion compliance with conditions (1)
Mmat = Vred (1)
On the basis of the law of conservation of space and matter, confirmed the validity of the assumption (2): Fvyt = Ftyag
From which it follows that the space affects, in a system consisting of any two material points on these points, with the force pushing applied to these points, and equal in magnitude to the force of gravity. The direction of this force, according to Newton’s third law can be proved similarly to the proof given the well- known [4], page 47.
On the basis of the law of conservation of space and matter, confirmed the validity of the received condition that space as matter has a density.
CONCLUSIONS
1. Strength, formerly known as the force of gravity [3]. Pp. 29 is a force which pushes the two material area point “m1” and “m2”, and is equal to:
Fvyt = (+ Vpr1 Vpr2) • g / Lim • Ppr
where: Fvyt- force pushing space
Vpr1- the amount of space occupied by the material point “m1”, equal
the volume of the material point “m1”.
Vpr2- the amount of space occupied by the material point “m2”, equal to the
the volume of the material point of “m2”
LimPpr – the ultimate density of the space, which is numerically equal to the density of matter points “m1” and “m2”. g- gravitational tension
2. With increasing distance between the two material points “m1” and “m2”,
the density of the space in these locations increases and tends to a limit equal to the numerical value of the matter density of points “m1” and “m2”.
LimPpr = g • r ² • (Vpr1 Vpr2 +) /Kg••Vpr1Vpr2
where: LimPpr – density of points in space “m1” and “m2”
g – gravitational tension
r – distance between “m1” and “m2”
Vpr1- the amount of space occupied by the material point “m1”, equal
volume of material point “m1”
Vpr2 – the amount of space occupied by the material point “m2”, equal
The volume of material points “m2”
Kg – the gravitational constant
3. The quantity of matter is the space occupied by the numerical amount of the Space:
Mmat = Vpr
FORMULA FOR OPENING
INSTALLATIONS previously unknown property space affect any two material points, the system consisting of the two material points with the ejection force applied to these points and directed towards the center of mass in the direction of the less dense area.
POSSIBLE APPLICATIONS OPEN
1. The discovery radically changes the understanding of the origin of gravity and answers the question about the nature of the gravitational force.
2. On the basis of the discovery can be disputed question of the origin of the various fields of electrical, magnetic, electromagnetic, etc., not fixing them as a consequence of inducing phenomena, namely to define the interaction of one or Ina forms of matter with space.
3. On the basis of the discovery, we can give a fundamentally new view of the origin of the material world.
4. The discovery gives new concrete idea of what matter and space has a density, and hence the space is the existence of space, too, with a density that matter, the limit is equal to the density of matter. The same fact is true of matter as a space, the space under the action of concentrating the ejection force, spatial body, which displays the formula (6). Matter is the existence of a density limit is equal to the density of the space. Based on the above, the following equalities:
LimPpr = Pmat;
LimPmat = Ppr.
SO: the buoyancy of space arises from the difference of the numerical
values of the densities of matter and space, equality between
which is not, for any given density of existence
space and matter, there are limits to which those seeking
density.
On the basis of the discovery can be concluded that the universe consists of two densities of space and matter, in which the buoyancy effect.
In the space of density, buoyancy effect of matter, which contributes to the concentration of the space in the spatial density, spatial body.
As the density of matter, the urging force of the space, which contributes to the concentration of matter in a material body.
These findings in no way contradict the philosophical interpretation of the existence of space and matter: “The space – a form of existence of matter.” [2], page 59 … 61., But only complement our understanding of the unity of space and matter.
Thus, from the foregoing, one can also conclude that there is a matter of space while achieving spatial body density limit matter, and then concentrated under the action of the ejection space in the material body.
And so it is possible to conclude that there is a space of the material when the material body density limit space, and then concentrated under the action of ejecting material, in the spatial body.
In our material density concrete confirmation of the “absorption” of matter in the universe is observed white dwarfs and black holes. Based on the above findings, it can be said that white dwarfs and black hole is material of the body where the equality substance density limit density space, which leads to the transformation of matter, in these systems, space which is then ejected matter and concentrated in the spatial body.
The emergence of the substance of the space there is in the rings of Saturn, as a good example to achieve a spatial body limit the density of matter, space and then pushed to the surface of Saturn.
5. Opening revolutionize the understanding of nuclear physics, in which there is still a lot of puzzles, one of which contains a vague understanding of the mechanism of electron motion in the nuclear orbits around atoms.
6. The opening will calculate the density limit at which the transformation of the space into matter and matter into space.
7. It is possible with the discovery, discover new forms of energy.
Bibliography
1. A. Einstein, “Collected Works”, Volume 2, Moscow, 1966. [1]
2. “Fundamentals of Marxist- Leninist philosophy,” Moscow, “Politizdat,” 1980. [2]
3. L.A.Setsa “units of physical quantities and their dimension”, publishing house “Nauka”
Moscow, 1977. [3]
4.B.M.Yavorsky, AA Detlaf, “Handbook on the Physics for engineers and students”
Moscow, 1979. [4]
Prof. VA Kolesnikov
The