ISSN:2321-6212

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Strict justification of the force of the gravitational field


5th International Conference on Theoretical, Materials and Condensed Matter Physics

November 26-28, 2018 | Los Angeles, USA

Valentyn Alekseevitch Nastasenko

Kherson State Maritime Academy, Ukraine

Posters & Accepted Abstracts: Res. Rev. J Mat. Sci

DOI: 10.4172/2321-6212-C10-042

Abstract

Currently, the force of the gravitational field is assumed to be estimated by the value FG of the gravitational interaction of twopoint bodies of mass m1, m2 (kg) located at a distance r (m) between them, which follows from the Law of Universal gravitation discovered by Newton: 1 2 ( ) 2 . G F G m m H r = (1) where G â�� gravitational constant. However, the force FG, found for the interaction of point objects, cannot strictly characterize the gravitational field having a spatial structure that encompasses the entire sphere of the observable Universe. Therefore, the application of Newton's law to determine this force is incorrect. In the work performed, this drawback is eliminated on the basis of the found parameters of the waves of the gravitational field: the frequency �½G, the wavelength �»G, the energy of this wave EG=h�½G (where h is Planckâ��s constant), and the mass equivalent mG of this wave, which are related to the speed of light in vacuum c by the following dependence: 2 2G G ( ). G m E h kg c c �½ = = (2) Herewith, the total mass m2 of waves of the gravitational field in the law (1) is replaced by its equivalent NmG, where N is the number of wavelengths in the distance r to any object of mass m1, which makes up the value N=r/ �»G, which allows us to find a new strict physical dependence for the force FG: 1 1 1 1 2 2 2 2 2 2 G G G G ( ). G G G G F G m Nh G m rh G m h Gh m N r c r c rc c r �½ �½ �½ �½ �» �» �» = = = = �� (3) Since the constants G, h, c, �½G, and �»G, under their dimensionality, can be expressed in terms of Planckâ��s values length lp, time tp and mass mp, we obtain the following: 3 2 2 2 2 2 2 2 1 . ( ) p p p G p p p p p G p p p p l m l Gh m t t t l m c c l t s l t �½ �» Taking into account the value of (4), we finally obtain a strict physical dependence for calculating the force FG: 2 2 1 1 ( ). G F c m m c N r r = = (5) It follows from the dependence (5) that the force FG of the action of the gravitational field on the object of mass m1 is energetic, it is directly proportional to the total energy of the mass of selected body and is inversely proportional to the distance r between it and any chosen point of the gravitational field. This dependences (3)...(5) can be qualified as scientific discoveries.

Biography

Valentyn Alekseevitch Nastasenko, the Kherson State Maritime Academy Ukraine, faculties Electrical engineering and electrics, the department of transport technologies. Professor of the department of transport technologies candidate of Dr. technical sciences. A sphere of scientific interests include quantum physics, the theory of gravitation, fundamentals of the material world and the birth of the Universe. Author of more than 50 scientific works in these spheres.

E-mail: Nastasenko2004@ukr.net