These constants should have been discovered in the first half of the twentieth century, but even our time of stationarity, absolute, and axiom opium prevent us from accepting the incredible changeability of our world and inscrutable simplicity of the Universe structure.
A necessity of the search for «magnet» component of a gravity field arose a while ago, nut here a comprehension of space as a mathematical absolute tricks us. The corresponding formulas are written long time ago, but to understand their physical sense we have to implement theory to the reality (make an experiment). Without thorough examination through practice a science transforms into the esotericism, or, even worse, into a religion.
If we implement field theory formulas by J. Maxwell to the physical reality, we can easily consider space to have a physical essence of gravity interaction «quantum» and linked to mass as a 2charge». A relation λ_{0} = m/GK defines the m charge (table 1) main «quantum» (graviton) wave length, that diffuses with speed V_{g}. It also obvious that new constants should be searched for within a well studied gravity system that should be described by the theory.
While in order to discover the Universal gravity law I. Newton required the system EarthMoon, to calculate new constants we need all Solar System that should be studied as a quantumwave system (table 2). In the main condition of this system should be a planet with the following parameters: orbit radius equals λ_{0}; orbit movement speed  V_{g}; spin projection (an equator inclination against the ecliptic flatness)  0; poses the biggest mass. It is obvious that the main Solar System planet is Jupiter. The following giant planets are placed at the second energetic level and their radiuses are multiple of λ_{0}: 2∙1 = 2, 2∙2 = 4, 2∙3 = 6. Their spins projections equal: 30°, 90° (Uranus lays on its side), and 150° (here the Neptune satellite moves in the direction of the planet rotation, not the opposite, as it is commonly thought). Earth group planets are placed in the interference zone and their radiuses equal: λ_{0}/3, λ_{0}/5, λ_{0}/7, λ_{0}/13. All these coefficients are provided in table 2 and serve for the graviton main wave and «magnetic» gravity constant calculation. To calculate the graviton speed the coefficients are taken in degree ½.
Table 1
Electromagnetic and gravity constants of the field theory by J. Maxwell
Interaction 
Electromagnetic 
Gravity 
Charge 
e 
m 
Potential constant 
ε_{0} 
GNK 
«Magnet» constant 
μ_{0} 
GK = m/λ_{0} 
«Quantum» speed 
C 
V_{g} = (GNK∙GK)1/2 
Structure constant 
K = C/V_{g} 
Table 2
Initial data to calculate new constants
Planet 
Средний радиус орбиты 
Средняя скорость планеты 

Coefficient 
Observation, million km 
λ_{0} index, million km 
Observation, km/h 
V_{g} index, km/s 

1 
2 
3 
4 
5 
6 
Mercury 
1/13 
57,9 
752,7 
47,85 
13,27 
Venus 
1/7 
108,2 
757,4 
35,01 
13,23 
Earth 
1/5 
149,6 
748 
29,77 
13,31 
Mars 
1/3 
227,9 
683,7 
24,11 
13,92 
Jupiter 
1 
778,3 
778,3 
13,06 
13,06 
Saturn 
2 
1427 
713,5 
9,62 
13,60 
Uranus 
4 
2870 
717,5 
6,8 
13,60 
Neptune 
6 
4496 
749,3 
5,43 
13,30 
The following calculation results were obtained:
 The main Sun graviton wave length λ_{0} = 739,15(10,70)∙10^{11} sm;
 The main Sun graviton period T_{0} = 10,95 years;
 «Magnetic» gravity constant G_{K} = 2,698∙10^{19} sm;
 Graviton speed V_{g} = 13,413(0,097)∙10^{5} m/s;
 K structure constant = C/V_{g} = 22351.
If we express constant G_{NK} from the graviton speed formula and provide the calculated figures here, we will obtain the following result:
G_{NK} = V_{G}^{2}/G_{K} = 6,668∙10^{8} sm^{3}/g∙s^{2},
which well corresponds with the inquiry indexes of this constant and within its calculation error [1].
References
1. Kurkov A.A. Personal Internet  magazine. Registered on 02.06.2007 [digital source] / Science  News: site: URL: http://zaza149.inauka.ru/ (request date 13.01.2011).
The work is submitted to the International Scientific Conference «Priorities for Science, technology and engineering», Italy (RomeFlorence), 1017 April 2011, came to the editorial office on 08.02.2011.