On the possibility of refining the gravitational constant and solving the task of integrating the gravitational and electromagnetic fields

3^rd International Conference on Theoretical and Condensed Matter Physics

October 19-21, 2017 New York, USA

Valentyn A Nastasenko

Kherson State Maritime Academy, Ukraine

Scientific Tracks Abstracts: J Material Sci Eng

Abstract :

Currently gravitational constant G is defined up to 5 characters, that is 2 or 3 orders of magnitude less than the accuracy of other fundamental physical constants Ã?¢Ã?Â?Ã?Â? the speed c of light in vacuum and PlanckÃ?¢Ã?Â?Ã?Â?s constant h. However in the Earth conditions the possibility of increasing the accuracy of defining G experimentally has reached its technical limit, which requires the search of new fundamental approaches. For this purpose the original approach is suggested and the system of calculated dependences resulted from fundamental physical constants c, G, h, as well as from Planck′s values of length lp, time tp and mass mp, is obtained allowing to refine the presently known value of the gravitational constant G by 3 orders. Scientific discoveries are put of the solution this problem: Taking into account the obtained wave characteristics [5] it can be strictly maintained that gravitational field can only by unified with electromagnetic field having the same wave characteristics. Thus, It can be summed up that unification of given fields is possible only on Plank′s level. This conclusion is confirmed number physical and mathematical level [5]. General conclusions and recommendations. 1. It was for by calculation up to 9 characters which accurate, a new magnitude of gravitational constant (4). 2. Strict constancy of the frequency of the waves of gravitational field Ã?Â?Ã?½p = const (3), excludes the possibility of the unification of gravitational and electromagnetic fields on other levels except Plank′s ones with wave length Ã?Â?Ã?»p.

Biography :

Valentiyn A Nastasenko, the Kherson State Maritime Academy Ukraine, faculties Electrical engineering and electronics, the department of transport technologies. Sphere of scientific interests includes quantum physics, the theory of gravitation, fundamentals of the material world and the birth of the Universe, the author of 50 scientific works in these spheres.