Let's imagine a plate standing steady in a fluid when there is a balance of two kinds of particles moving in opposite direction.Because they push plate from both sides plate is in steady-state condition.Now , external force is moving plate in direction of one particles kind movement direction opposing the flow of others.Balance is still maintained but nowafter the plate there is small empty place where particles moving in the same direction as plate cannot 'catch up' . There is also concentration of particles plate is moving against which is dissipated at 90 degrees by spreading those particles on the edges of the plate .

Looks familiar ? Throw away particles, replace fluid with ether and particles with waves inside ether, plate with copper wire,particles leaking on edges by electric current, steady-state condition by magnetic field. Could you help evolve that ?
Also similiar to Casimir effect ???

I believe most electrons are not static unless attached to a charged mass, most are attached to a magnetic field, it may be a week field but it is attracted to the magnetic field no matter how weak.
When we power up a coil that has a magnetic field that is stronger than the field the electron is attached to it will go to the stronger field, in this manner the electrons are always moving,
When they encounter a stronger field it revs them up, theyre more excited faster spin rate- more energy.

The E field around a coil are electrons orbiting the magnetic core waiting to enter the magnetic fied, when electrons are stripped from the magnetic field as with a coil of wire the orbiting E field will replace them instantly and this is how the magnet or coil taps the aether.

What I havent figured out is, are these particles of electrons or the actual electrons.
If we look at Cooper pairs in superconductors two particles orbit each other and move through a medium, I wonder if you have two particles with opposite spins will they orbit each other, I believe they would be attracted to each other, would they interlock into an orbit, and if so is this what creates an electron.
Just thinking out loud
Dave

This is kinda crazy but just for ****zngigles try hooking a pulsed DC Smith device up like you would two battery's.

Hooking up the secondary's in this manner will determine if its particles or electrons, if this arrangement works then they are particles if it doesn't then they are electrons.
Dave

The Greatest Speech Ever Made - YouTube

The spark gap is a switch about what N. Tesla was talking about in his early research - Gerry Vassilatos and Tesla

TESLA RADIANT ENERGY:
SHOCKWAVES

"... while endeavoring toward his own means for identifying electrical waves, Tesla was blessed with an accidental observation which forever changed the course of his experimental investigations. Indeed, it was an accident which forever changed the course of his life and destiny. In his own attempts to achieve where he felt Hertz had failed, Tesla developed a powerful method by which he hoped to generate and detect real electromagnetic waves. Part of this apparatus required the implementation of a very powerful capacitor bank. This capacitor "battery" was charged to very high voltages, and subsequently discharged through short copper bus-bars. The explosive bursts thus obtained produced several coincident phenomena which deeply impressed Tesla, far exceeding the power of any electrical display he had ever seen. These proved to hold an essential secret which he was determined to uncover.

The abrupt sparks, which he termed "disruptive discharges", were found capable of exploding wires into vapor. They propelled very sharp shockwaves, which struck him with great force across the whole front of his body. Of this surprising physical effect, Tesla was exceedingly intrigued. Rather like gunshots of extraordinary power than electrical sparks, Tesla was completely absorbed in this new study. Electrical impulses produced effects commonly associated only with lightning. The explosive effects reminded him of similar occurrences observed with high voltage DC generators. A familiar experience among workers and engineers, the simple closing of a switch on a high voltage dynamo often brought a stinging shock, the assumed result of residual static charging.

This hazardous condition only occurred with the sudden application of high voltage DC. This crown of deadly static charge stood straight out of highly electrified conductors, often seeking ground paths which included workmen and switchboard operators. In long cables, this instantaneous charge effect produced a hedge of bluish needles, pointing straight away from the line into the surrounding space. The hazardous condition appeared briefly, at the very instant of switch closure. The bluish sparking crown vanished a few milliseconds later, along with the life of any unfortunate who happened to have been so "struck". After the brief effect passed, systems behaved as designed. Such phenomena vanished as charges slowly saturated the lines and systems. After this brief surge, currents flowed smoothly and evenly as designed.

The effect was a nuisance in small systems. But in large regional power systems where voltages were excessive, it proved deadly. Men were killed by the effect, which spread its deadly electrostatic crown of sparks throughout component systems. Though generators were rated at a few thousand volts, such mysterious surges represented hundreds of thousands, even millions of volts. The problem was eliminated through the use of highly insulated, heavily grounded relay switches. Former engineering studies considered only those features of power systems which accommodated the steady state supply and consumption of power. It seemed as though large systems required both surge and normal operative design considerations. Accommodating the dangerous initial "supercharge" was a new feature. This engineering study became the prime focus of power companies for years afterward, safety devices and surge protectors being the subject of a great many patents and texts.

Tesla knew that the strange supercharging effect was only observed at the very instant in which dynamos were applied to wire lines, just as in his explosive capacitor discharges. Though the two instances were completely different, they both produced the very same effects. The instantaneous surge supplied by dynamos briefly appeared super-concentrated in long lines. Tesla calculated that this electrostatic concentration was several orders in magnitude greater than any voltage which the dynamo could supply. The actual supply was somehow being amplified or transformed. But how?...

It sounds to me like the text is talking about bemf, the Don Smith device is all about collecting the bemf of the primary.
The primary sets up the E field when the power is pulsed or shut off the E field collapses into the coil that is bemf, In the case of Dons device the secondary's are catching the bemf of the primary.

Something else that would be worth a try is a spark gap after the primary, on the primary circuit.
Dave
edit: Im sorry before the primary

It is right before your eyes, the sudden capacitor discharge creates explosive shock-wave with all following effects. And BEMF is not powerful enough to amplify input power...

Just giving observations and idea's, I dont claim to know all.
Dave

Folks the system Iv been describing cant be powered by a nst, it has to be powered by DC.

A nst puts out AC and this flips the E field just as it does the magnetic field.
Take Care
Dave

A question for the electronic guru's, does a flyback transformer put out AC or DC.
Thanks in advance
Dave

2 HV diodes do the job on 1 hot wire as half-bridge (same usage as for Joule Ringer), charge capacitor from single HV wire..

This is where you should begin practising and seeing outcome straight from your circuits...

Your right I should put the idea's into practice and I will when Im sure. I like to give idea's out before I try them that way if it works I wont be reluctant to divulge the answers, not that I wouldn't its just there is a risk involved.
The idea's I give are based on the action reaction of the E field, in my mind of course.
I hope to help
Dave

Rectifying a nst
RTFTechnologies Neon Sign Transformer

Your right a cap does deliver a powerful discharge and jumps the spark gap, the spark gaps job is to stop the bemf, thats what was hurting people when the system was turned off.
When a coil is turned off the E field that is orbiting the coil callapses into the coil windings.
By putting a spark gap before the primary the E field cant enter the coil windings because the path is blocked so it surges into the magnetic field, creating the explosive shock wave you mentioned.
I love you guy's and together we can find the answers.
Thrive Coming Soon
Dave