Theoretical and Applied Physics

Presently gravitation constant G is certain to 6 signs from which 5 – exact, that on 4-3 orders yields exactnesses of other fundamental physical constants are speed c light in a vacuum and constants of Plank’s h, recommended by CODATA (2014). However possibilities of increase of exactness of determination of G experimental a way in the conditions of Earth attained the technical limit, that requires the search of on principle new approaches. On the basis of the offered original method the system of calculation dependences, effluent from fundamental physical constants with, is c, G, h. This physicalmathematical regularities is strict and allow determining the exact value of frequency of oscillation wave gravitational field νG= 7.4∙1042 s-1 (constant Nastasenko). This value νG of allows defining value gravity constant G to 10 signs, that on 4 orders more precisely than the all of values of G known presently. The necessity of experimental determination of G is thus eliminated, only enough determinations c and h, and growth of their exactness automatically will result in growth of exactness of determination of size of G. On the basis of νG, the wave parameters of the gravitational field are found, which are real quantities of the material world, and can replaced abstract Planck’s values of length lp, time tp and mass mp. Herewith, their accuracy is increased which allows to determine the value of the gravitational constant G to 10 characters, which is 4 orders of magnitude more accurate

than all its values recommended by CODATA (2014).