UDC 521
"Fourth Law of Kepler"
Dudkin A. V., Kobelev DI, with the support and the comments the Department of Chemistry NCSTU in Stavropol and Nevinnomyssk.

For reasons of hydraulics found a new addiction, concerning issues such as gravity, generalized theory of the field.

Key words: gravitation, field theory, the discovery of the laws of astronomy.

Proceeding from the assumption of the materiality of the vacuum, found another relationship in the rotation of the planets around the sun. The idea, which served as the basis for the search, the following: a cup of tea liquid layers slip relative to each other (if you turn the spoon into the center of the cup) in accordance with Kepler's third law. In the same way the matter is rotating vacuum, and enjoys the sun's rotation around its own axis. Planets are moving at velocities of layers of vacuum, in which they are (similar to tea leaves are not moistened (floating on the surface)). The lifting force acting on the planet from the vacuum layer is responsible for the shape of the orbits (which would have been a movement along a closed curve, but not as dirty rebound from a rotating wheel) and depends on the distance from the planet to the sun, and probably the average elemental composition of the planet . There she was from - a multi-speed "delay" and "timing" of vacuum layers on the near and far points of the planet relative to the Sun. Planets, on - seems to be moving around the Sun at speeds equal to the velocity layers of vacuum, which revolve around the same distance from the Sun as the center of the planets.
Dependence: the square of the difference between the linear velocity of the vacuum in the extreme points of the first selected layer vacuum conditional refers to the square of the difference between the linear velocity of the vacuum in the extreme points of the second conditionally selected layer of vacuum, as the cube of the distance from the Sun to the second conventional vacuum layer selected, apply to the cube of the distance from the Sun to first. Assuming equal thickness layers tentatively identified.
We show this in figures:
Planet average speed, km / s and the distance from the Sun as well. is
Mercury 47.9 0.387
Earth is a 29.8
Jupiter is 13.1 5.2
Saturn 9.63 9.584

Data from [1]. The rate calculated from the distance of Saturn by Kepler's third law. The calculation will be carried on the thickness of the tentatively identified layers of vacuum equal to the radius of Mercury = 2440 km [1], assuming that one of the points of the layer (closest to the boundary layer of the Sun) moves at a speed corresponding to the planet, and the other (standing away from the first radius of Mercury) - at a rate calculated from Kepler's third law. 1 a. e = 149.6 million km [1].
Calculation of Mercury: 149.6 * 0.387 = 57.8952 million square kilometers;
57.8952 + 0.00244 = 57.89764 million km;
for the third Kepler law (recorded in terms of linear velocity): (57.89764 / 57.8952) = (47.9 2 / x 2) S x = 47,898990656343 km / s;
the difference of speeds: 47.9 - 47.898990656343 = 0.001009343657 km / s N
square of the difference of speeds: 0.000001018775 (km / s) 2.
Calculation of the Earth: 149.6 * 1 = 149.6 million km;
149.6 + 0.00244 = 149.60244 million kms;
(149.60244 / 149.6) = (29.8 2 / x 2) S x = 29,799756981582 km / s;
the difference of speeds: 29.8 - 29.799756981582 = 0.000243018418 km / s N squared difference of speeds: 0.000000059058 (km / s) 2.
The calculation of Jupiter: 149.6 * 5.2 = 777.92 million km;
777.92 + 0.00244 = 777.92244 million kms;
(777.92244 / 777.92) = (13.1 2 / x 2) S x = 13.099979455519 km / s;
the difference of speeds: 13.1 - 13.099979455519 = 0.000020544481 km / s N
square of the difference of speeds: 0.000000000422 (km / s) 2.
Calculation of Saturn: 149.6 * 9.584 = 1433.7664 million km;
1433.7664 + 0.00244 = 1433.76884 million km;
(1433.76884 / 1433.7664) = (9.63 2 / x 2) S x = 9,629991805789 km / s;
the difference of speeds: 9.63 - 9.629991805789 = 0.000008194211 km / s N
square of the difference of speeds: 0.000000000067 (km / s) 2.
Here are the squares of the differences of the velocities of the planets to the square of the difference in speed of Mercury (check the law):
Earth: 0.000000059058 * 1 3 / 0.387 3 = 0.000001018934 (km / s) 2;
Jupiter: 0.000000000422 * 5.2 3 / 0.387 3 = 0.000001023740 (km / s) 2;
Saturn: 0.000000000067 * 9.584 3 / 0.387 3 = 0.000001017612 (km / s) 2.
Fraction R1 3 / R2 3 is probably the factor that takes into account the different density of vacuum in the separate layers (more dense vacuum "dig" harder). Different average elemental composition of planets determines the different surface roughness and, apparently, is the reason for the reduction of lift (from Mercury), which leads to the similarity of the orbits of forms (which would have been "circles" rather than a "round", and another, for example, on the Sun, a parabola).
The transition from periods of treatment in Kepler's third law to the average linear velocity through T = 2pR / v [1].
Hydraulic considerations mentioned above, lies in the fact that the ratio of lifting force to the body, flying with two different linear velocities, equal to the ratio of the squares of the linear velocity [2].
We considered the relationship mathematically deduced from Kepler's third law ((v1 - v2) 2 / (v3 - v4) 2 3 = R3 / R1 3 is not equal to 2 v1 / v3 2 = R3 / R1).
More details can be found on page ivanushka-durachok.ru


List of sources used:
A. astrogalaxsy.ru
Two. ru.wikipedia.org