How Low Energy Cancer Cells May Be
Jolted by the Power of Scalar Energy
This article looks at the role energy plays in cancer cells and their
proliferation.
Within the human body, each and every cell registers an electrical charge across
the membrane’s...
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How Low Energy Cancer Cells May Be
Jolted by the Power of Scalar Energy
This article looks at the role energy plays in cancer cells and their
proliferation.
Within the human body, each and every cell registers an electrical charge across
the membrane’s plasma.
Each cells interior carries a negative charge,
respective to the exterior charge.
What this electrical charge is referred to as is
the transmembrane potential.
While the size of the transmembrane is different
from cell to cell, in cells that are excitable (chargeable), it stands at -70 millivolts.
Cancer cells are proven to contain low amounts of energy or have reduced
transmembrane potential as well as a low level of cellular energy production.
The transmembrane potential in these cells is at -15 millivolts, indicative of low
energy levels.
The cells that have low transmembrane potential at -15 millivolts divide into two
separate cells.
The reasoning for this is quite simple: as the energy level drops
into life-threateni
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