Test Circuit Request: Stop Current Before Wire End?

[Spherenot]

Please, can someone with the knowledge draw-up a simple example circuit that will, "stop the flow of electrons BEFORE reaching the end of the wire?"

This concept is puzzling me.  I would like to build a simple test circuit to see this effect.  How can I test this effect to be sure that it is not something else?

How can I modify the circuit to stop the flow AFTER it reaches the end of the wire?

How can I see both of these effects, (not simultaneously,) stopping flow BEFORE and stopping it AFTER it has reached the end of the wire?

What should my scope look like with each of these circuits and what will be the differences?

I assume, for this simple set-up, that I will need a long(ish) wire; will 50 feet solid 22 AWG work?

I assume that I will need a capacitor; what size minimum to see this effect?

What type of minimum power supply will I need; can I do this with a small battery, say 9V?

What device can make a very short impulse, if a very short impulse is what is meant by before reaching the end of the wire, a MOSFET, a spark-gap, what?

Is it just a simple matter of calculating the pulse-on time vs. the time it takes current to reach the end of the wire; i.e. if the pulse-on time is shorter than the time it takes, what light conservatively, to reach the end of the wire then the object is accomplished?

What happens when we "play" with this pulse-on time, slowly increasing it to match the length of the wire?

How much more complex would this test circuit need to be in order to fine tune the pulse-on time?

SIDEBAR: I have several working vintage computers in my garage.  Perhaps I could use one of these for parts or jam a tiny-Linux system on one and use a printer cable to export pulses?  But this sounds like a software and hardware hassle, if it would work at all.  I will wait until I see the complexity of the test circuit that I request.

[Nali2001]

Ask Tesla he knows.
Magnetic quenched Spakgaps create a unidirectional disruptive stopped dc pulse. Altough I don't know if anyone ever build one in the f.e. research area.

[Spherenot]

Magnetic quenched Spakgaps...

Do you have any more information about this concept?
I searched and found squat.  Is this one of Tesla's foreign patents?


Light takes about a nanosecond to traverse one foot of wire.  So, if I have a 20 foot length of wire then I will need a pulse-width shorter than 20 nanoseconds to, "stop the flow before it reaches the end of the wire?"

The smallest time scale on my scope is 50 nanoseconds per division.  So, I should be able to eyeball less than 2/5 of a division between the start and stop of a pulse,... right?

[giantkiller]

Magnetic quenched Spakgaps...

Do you have any more information about this concept?
I searched and found squat.  Is this one of Tesla's foreign patents?


Light takes about a nanosecond to traverse one foot of wire.  So, if I have a 20 foot length of wire then I will need a pulse-width shorter than 20 nanoseconds to, "stop the flow before it reaches the end of the wire?"

The smallest time scale on my scope is 50 nanoseconds per division.  So, I should be able to eyeball less than 2/5 of a division between the start and stop of a pulse,... right?

It is in the Telsa paperwork. Smack the copper faster than it can conduct and the force splatters out sideways! You want that.
It must be double speak time: To stop the current before it reaches the end of wire also means that you can fire the current so that it radiates outward because the CU conduction rate doesn't start that fast. You really don't care if the wire conducts or not(the way we have been taught). The electrons lined up are the magnetic field. The electrons lining up is the radiant energy from that stress.
http://educate-yourself.org/fe/radiantenergystory.shtml Read it and your thinking will change.
Do you need a slapping too?

Here. I be nice guy:
Tesla realized almost immediately that electrons were not responsible for such a phenomena because The blue spike phenomena ceased as soon as the current stated flowing in the lines. Something else was happening just before the electrons had a chance to move along the wire. At the time, no one seemed to be very interested in discovering why these dramatic elevations in static electrical potential were taking place, but rather, engineering design efforts were focused on eliminating and quenching this strange anomaly which was considered by everyone to be a nuisance-except Tesla. Tesla viewed it as a powerful, yet unknown form of energy which needed to be understood and harnessed if possible. The phenomena only exhibited itself in the first moment of switch closure, before the electrons could begin moving. There seemed to be a ?bunching? or  ?choking? effect at play, but only briefly. Once the electrons began their movement within the wire, all would return to normal. What was this strange energy that was trying to liberate itself so forcefully at the moment of switch closure? .

Kicks are easy. Now how do we grab them?
Am I as alone as Tesla on this?

Its the same type phenomina that dolphins use at the bow of a ship! They ride the resistance behind them! The ship is the current. The dolphins are riding the radiant wave of water pressure. But the WATER ain't moving!

Can ya see IT? The dolphins are like the electron pressure!

--giantkiller. There are always those that stop things.

And in case you don't understand mariner physics:
http://www.overunity.com/index.php/topic,1872.msg22314.html#msg22314
Page 8! kicks ass! and what ever else touches it.
http://scientificsonline.com/product.asp?pn=3070070&bhcd2=1169512954

[Nali2001]

Here is the info that needs to be understood
http://www.gutenberg.org/files/13476/13476-h/13476-h.htm

downloadable zip file:
http://www.gutenberg.org/files/13476/13476-h.zip