On the possibility of the numeric periodicity of fundamental physical constants G, h, c and new method of their refining

Astrophysics & Aerospace Technology

ISSN: 2329-6542

Open Access

On the possibility of the numeric periodicity of fundamental physical constants G, h, c and new method of their refining

Joint Event on 3rd International Conference on Nuclear and Plasma Physics & 4th International Conference on Quantum Physics and Quantum Technology

November 05-06, 2018 | London, UK

Valentyn Alekseevitch Nastasenko

Kherson State Maritime Academy, Ukraine

Scientific Tracks Abstracts: J Astrophys Aerospace Technol

Abstract :

Currently, the force of gravity is determined by the value FG of interaction between the two point bodies of mass m1, m2 (kg), which are located at a distance r (m) between them, according to the law of world gravitation discovered by Newton. However, the force FG , which is found for the interaction of point objects, cannot strictly characterize the strength of the gravitational field, which have a spatial structure that cover the volume of the observable universe sphere. Therefore, the application of Newton??s law for its finding is incorrect. This disadvantage is eliminated on the basis of found parameters of the gravitational field waves: the frequency νG, the wavelength λG, the energy of this wave EG=hνG (where h - is the Plank??s constant) and the mass equivalent mG of this wave, which is related to the Plank??s mass mp with fundamental physical constants: h, the gravitational constant G and the speed c of light in vacuum. In this case, the total mass m2 of the gravitational field waves in Newton??s law is replaced by its equivalent NmG, where N ?? is the number of wavelengths λG at a distance r to any object of mass m1, which gives the value N=r/ λG. These parameters allows us to find a new strict physical dependence for the force FG. With expressing in it the constants G, h, c, within the framework of their dimension, through the Plank??s values of the length lp, time tp, and the mass mp, we get: 1 2 1 1 1 1 2 1 2 2 2 2 2 2 2 G G G G ( ). G G G G F G m m G m Nh G m rh G m h Gh m c m N r r c r c rc c r r ν ν ν ν λ λ λ = = = = = ? = ? From this dependence it follows that the force FG of action the gravitational field on an object of mass m1, within the framework of the law E=m1c2, 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 the chosen point of the gravitational field.

Biography :

Valentyn Alekseevitch Nastasenko is a candidate of Doctor of Technical Sciences. He is currently working as Professor in the Department of Transport Technologies at the Faculty of Electrical Engineering and Electronics of Kherson State Maritime Academy, Ukraine. His sphere of scientific interests includes cutoff tools and hard-alloy multifaceted unresharpenable plates. He is the author of more than 50 scientific works in these spheres.



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