Considering the Newtonian gravitational constant as a quantized constant of microscopic quantum gravity, an attempt is made to fit its value in a verifiable approach with reference to three large atomic gravitational constants pertaining to weak, strong and electromagnetic interactions linked with a quantum relation, $G_x\approx \left(\frac{\hbar c}{m_x^2}\right)$. Estimated value seems to be 865 ppm higher than the recommended value.
Starting from Z=3 to 120, energy coefficient being 10.1 MeV - nuclear binding energy increases with increasing mass number, decreases with increasing number of free or unbound nucleons, decreases with increasing radius and decreases with increasing asymmetry about the mean stable mass number. Proceeding further, by considering the number of free or unbound nucleons, an attempt is made to understand the mass limits of nuclear stability zone. With further study, stable zones of relatively long living super heavy elements can be identified.
Without considering Big Bang and Inflation, we have developed a quantum model of cosmology associated with Machian universe having Planck scale origin, total dark matter, light speed expansion, light speed rotation, equality of gravitational self energy density and thermal energy density, radially decreasing internal acceleration and radially increasing anisotropy. In this short communication, we present various applications of current cosmic angular velocity.
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