To Validate the Role of Electromagnetic and Strong Gravitational Constants via the Strong Elementary Charge

摘要

Within the atomic medium, in analogy with gravity and Schwarzschild interaction, atomic phenomena can be understood with large values of gravitational constants. It may be noted that, larger the magnitude of gravitational constant, smaller is the magnitude of the operating force. The key points to be noted are: 1) There exists a strong elementary charge and squared ratio of electromagnetic and strong interaction charges is equal to the strong coupling constant. 2) There exists a gravitational constant associated with strong interaction, G_(s)= 3.329561213x10~(28) m~(3) kg~(-1)sec~(-2) 3) There exists a gravitational constant associated with electromagnetic interaction, G_(e)= 2.374335685 x10~(37) m~(3) kg~(-1)sec~(-2) ; As the magnitude of operating force is far less than the magnitude of (c~(4)/G), protons and electrons cannot be considered as black holes. With further research and analysis, massive origin of protons and electrons can be understood. In this paper, by quantifying the strong interaction elementary charge, an attempt is made to validate the role of the proposed electromagnetic and strong interaction gravitational constants.