Quantum Gravity and String Theory

   

Quantum Theory, String Theory, Strong Gravity and the Avogadro Number

Authors: U.V.S.Seshavatharam, S.Lakshminarayana

Nucleon behaves as if it constitutes molar electron mass. In a unified way nucleon's mass, size and other characteristic properties can be studied with this idea. If strong interaction is really $10^{39}$ times stronger than the strength of gravity, this proposal can be given a chance. Key conceptual link that connects the gravitational force and non-gravitational forces is - the classical force limit, $F_C \cong \left(\frac{c^{4} }{G} \right)$. It can be considered as the upper limit of the cosmic string tension. Weak force magnitude $F_W$ can be considered as the characteristic nuclear weak string tension. Until the measurement of $\left(F_C \;\&\; F_W\right)-$ it can be assumed that $\frac{F_C}{F_W}\cong N^2$ where $N$ is Avogadro like number.

Comments: 29 Pages.

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Submission history

[v1] 2012-03-13 21:16:16

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