• Corpus ID: 17611632

Journal of Theoretics Vol . 4-2 Gravitation and Inertia as a Consequence of Quantum Vacuum Energy

@inproceedings{Calvet2002JournalOT,
  title={Journal of Theoretics Vol . 4-2 Gravitation and Inertia as a Consequence of Quantum Vacuum Energy},
  author={Dr. Carlos Calvet},
  year={2002}
}
By assigning the elementary Planck units to the units of Newton’s Gravitational Constant (G), it resulted in G being a function of vacuum (zero point) energy (ZPE). ZPE appears to reduce gravity, as it is inversely proportional to gravitational force. Further, the value of ZPE density-matter equivalent has resulted to be equivalent to the Planck mass in a Planck volume, rendering a much easier way of calculation. 

Principles of Gravity Manipulation via the Quantum Vacuum

By expressing natural constants in terms of Planck units, we found that the Universal Gravitation Constant is the inverse of vacuum density matter-equivalent and the square of Planck time, being the

The Quantum Vacuum Lepton / Photon Ratio

From Coulomb’s Constant, the “Planck charge” (qP) and the corresponding quantum vacuum (QV) lepton/photon ratio are calculated, the latter by dividing qP by the Planck mass. The QV-lepton/photon

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