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stress potential wave

Newton's third law requires forces to occur in pairs of equal but antiparallel forces.

"Both wave and antiwave co-exist simultaneously in the vacuum electromagnetic wave. Therefore it's a stress potential wave, not a force field wave. It's more like an electromagnetic sound wave, and so it is a longitudinal wave, not a transverse wave. In the electromagnetic vacuum wave's interaction with matter (the so-called "photon" interaction), the wave normally half interacts with the electron shells of the atom, giving translation forces, while the antiwave half interacts with the atomic nucleus, giving the Newtonian 3rd law reaction (recoil) forces (waves)." [Bearden, The Final Secret of Free Energy]

"Both wave and antiwave co-exist in the vacuum simultaneously, forming a stress wave. The entity that is stressed is the rate of flow of time. In the common interaction with matter, the time-forward half of the stress wave normally interacts with the electron shells of the atom, giving electron translations forces. The time-reversed or antiwave half interacts with the nucleus, giving the Newtonian 3rd law reaction (recoil) forces. The so-called "EM wave" in vacuum is a gravitational wave. It is a wave of oscillation of the rate of flow of time. It is rather like a sound wave in air, as Tesla pointed out, and it is a longitudinal wave, not a transverse "string" wave." [Bearden, The Final Secret of Free Energy]

See Also


Mate-Pairs
Oscillation
Phase Conjugation
Potential
potential gradient
reciprocal
Rotation and Revolution are Reciprocals
Vibration
Wave

Created by Dale Pond. Last Modification: Friday April 20, 2018 03:17:31 MDT by Dale Pond.