So I'm thinking... If we cause aetheric compression waves on the surface of a conductor to oscillate in resonance, or cause a system to resonate by matching the system's wavelength by adjusting the duration of each aetheric compression (which is determined by the system's naturally resonant geometry, ie it's shape, inductance capacitance, resistance etc - OR by virtue of it's molecular structure), we can nudge it's natural resonance momentarily up an octave. By varying the time between each pulsed wave, we can cause the resultant secondary aether compression caused by the mass as it establishes itself to it's natural state, to increase the amplitude or density of the aetheric pulse as the wave passes.
Several things happen here: the aether does not lose energy by pulsing back, but the mass being impinged upon will have great stress placed on the shape of it's atomic latticework, and if it does not have a specific geometry, may begin breaking down as it's atomic bonds lose cohesion. In essence, while under this stress, the mass atoms may break up into elements lower on the atomic table of elements, and could conceivably emit alpha and beta radiation. Air could conceivably become ionized.
In order to maintain molecular integrity of the mass being vibrated, several conditions may be considered.
Spheres and tubular geometries will at the outer molecular layer have each atom's electrons impinging equally upon it's neighboring electrons, and there would be an inertial resistance to any movement. Also, greater surface area would help dissipate each pulse's stress on a greater number of atoms.
If the mass being resonated was exactly equal to the mass propagating the aetheric impulse, the amount of aether particles being shifted in each wave would be equal to the displacement of aether particles in the impacted space. This would create even and stable oscillations.
The system being impinged upon by the pulses would increase the compression of each pulse it was 1/4 the length of the wave transmitted, as this is exactly the height of the amplitude, provided the masses of transmitter and reciever are the same. Tesla makes comment that it can also be an odd number multiple of the quarter wavelength.
This may be true of the impedance, capacitance, atomic weight? Etc......
All this will only occur if the pulses are unidirectional. Any alternating waves will undo the work done by the preceding wave.
/// my mind just went kaput. Probably more to follow. All of it just as unstructured. Maybe some of it will help.
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