"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). The electromagnetic wave in vacuum is an electrogravitational wave." [Bearden, The Final Secret of Free Energy]

See Also

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amplitude of the wave
amplitude wave position
antiwave
bidirectional wave pair
electric thought-wave
electromagnetic sound wave
forward-time wave
gradient wave
light waves in motion
light-wave
mate-pairs
phase conjugate gradient wave
phase conjugate replica wave
phase-locked time-forward electromagnetic wave
phase-locked time-reversed electromagnetic wave
Pulsing Electric Thought-Waves
stress potential wave
time-reversed replica wave
tonal nature of octave waves
vacuum electromagnetic wave
wave pair