26
posted ago by kekistani_prince ago by kekistani_prince +27 / -1

Please watch this experiment or else none of what I write will make sense

In the above experiment electrons are being pulled and pushed by the electrostatic force. That force also acts upon the plate that he picks up and moves, when you factor out gravity and air resistance, how hard is it to move the plate?

How hard is it to physically separate the charge?

If I use this principle, electrostatic induction, how hard is it to attract it repel electrons through a current path.

If there's a current path and the electrons can move, the force of electrostatic attraction will cause the electrons to move.

It pulls on me too, but it can only pull as hard as the electrons resist moving.

An amps worth of electrons only weights a billionth of a gram, if there is a current path and I use the electric force to move electrons around like magnets I feel no virtually no resistance, they have meaningless mass, they have no momentum to resist acceleration.

So it isn't free energy, it's working on a different physical property of the electron than an electromagnetic generator and doing that efficiently.

It's easier to work on an electrons mass than it is to work on a electrons by EMR fields. Plain and simple.

Now you can take those same electrons and use their charge properties to establishing magnetic fields and do work and get overunity. Like concentrating fuel.