Version 1
: Received: 30 October 2020 / Approved: 2 November 2020 / Online: 2 November 2020 (11:07:28 CET)
How to cite:
Satya Seshavatharam, U.; Lakshminarayana, S. Understanding Nuclear Stability Range with $A_s\cong \left(Z+2.95\right)^{1.2 \pm 0.015}$. Preprints2020, 2020110025
Satya Seshavatharam, U.; Lakshminarayana, S. Understanding Nuclear Stability Range with $A_s\cong \left(Z+2.95\right)^{1.2 \pm 0.015}$. Preprints 2020, 2020110025
Satya Seshavatharam, U.; Lakshminarayana, S. Understanding Nuclear Stability Range with $A_s\cong \left(Z+2.95\right)^{1.2 \pm 0.015}$. Preprints2020, 2020110025
APA Style
Satya Seshavatharam, U., & Lakshminarayana, S. (2020). Understanding Nuclear Stability Range with $A_s\cong \left(Z+2.95\right)^{1.2 \pm 0.015}$. Preprints. https://doi.org/
Chicago/Turabian Style
Satya Seshavatharam, U. and S. Lakshminarayana. 2020 "Understanding Nuclear Stability Range with $A_s\cong \left(Z+2.95\right)^{1.2 \pm 0.015}$" Preprints. https://doi.org/
Abstract
With reference to our 4G model of final unification, strong coupling constant and strong interaction charge of magnitude $e_s\cong 2.95e$, it is possible to understand the nuclear stability range with a simple power law of the form, $A_s\cong \left(Z+2.95\right)^{1.2\pm0.015}$
Keywords
4G model of final unification; strong coupling constant; strong elementary charge; nuclear stability range
Subject
Physical Sciences, Acoustics
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
