Hi guys,

I have just realized I made a mistake with the information I posted in post #382. I was posting about the value of the windings in the pump motor and the windings of the transformer I was using. I gave those values as impedance. That is NOT correct. Those values are actually the inductance values of the windings.

As gene has pointed out the impedance value changes as the frequency changes. However the inductance value does not change. Sorry for the confusion. I just wasn't paying attention to what I posted.

A couple of quick lessons for those of you trying to understand some of this electronic stuff. As the frequency goes up the impedance goes up for an inductor. Conversely as the frequency goes down the impedance goes up for a capacitor. The actual impedance value will depend on the inductance and the frequency or the capacitance and frequency. And as gene also pointed out all devices have some of each although we usually ignore very small capacitance values or very small inductance values.

If you are not overloaded yet here is one more little tidbit. Just remember the saying "Eli the Ice man" ELI meaning voltage leads current in an inductor. And ICE meaning current leads voltage in a capacitor. This makes sense if you remember in electronics E stands for voltage and I stands for current. Also C stands for a capacitor and L stands for an inductor.

Later,
Carroll

I am also interested in this as it relates to the Tesla impulse. Here is a preview of what you have coming saying that the ampere force law experiment is detailed in that book.... hope you share, the book price on Amazon just now was almost four hundred.

The following is quoted from a pdf that I have....

"The Ampère force law confirms a number of important
experimental facts. Amongst them is the behavior of the
electro-dynamic impulse pendulum. Pappas3 of the
University of Athens was the first to discover that the performance
of the impulse pendulum could not be explained
without Ampère’s force law which invalidates the Lorentz
law and casts doubt over the entire edifice of the Maxwell-
Einstein relativistic electromagnetism. This experiment is
explained at length in Newtonian Electrodynamics,1 plus other
tests which specifically demonstrate the longitudinal force
component which acts in the direction of current in a conductor.
This component is entirely lacking in the Lorentz
force which is always completely perpendicular to the direction
of electric current. This longitudinal force component
creates tension in conductors, which is often observed qualitatively
in the behavior of exploding wires and more quantitatively
in specifically constructed experiments. Most significantly,
the Newtonian electrodynamics developed by Ampère, Neumann, Kirchoff and others simply disappeared from textbooks at the beginning of the 20th century. This isa serious scientific crisis which will hopefully inspire adventurous physicists to face the issue and return electromagnetic
theory and its wider physical implications to their empirical
early 19th century integrity."

Hello again Gene,

I have been playing around again with the pump motor. I took the windings and laminations off the rotor assembly. Then I tried passing a magnet past the end of the laminations. I wanted to see if I could get some power with the magnet going by the end of the laminations instead of rotating inside the laminations. That does work.

I got the idea from watching a video that Dave posted in the Basic Free Energy Machine thread. The video showed a man with a set up of a wheel and magnets and a coil arrangement like the Leedskelin PMH. As the magnet passed between the ends of the PMH type coil lamination it generated power and if loaded it caused the wheel to speed up. I got to wondering if the fact the coils were not at the end might have something to do with the speeding up of the wheel. He also showed the current going to the motor went down as the wheel sped up.

The only thing I have right at the moment to test with is my old Bedini SSG which let me hold the pump motor coil and laminations close to it and see what I got. Using a bridge rectifier on the output I was able to charge a cap to 20 volts or so. And of course the SSG was only turning about 150 rpm and the magnets are spaced apart too. As far as I could tell the wheel did not slow down any when I was charging the cap or when I shorted out the pump motor.

I have my magnets on the SSG mounted crosswise to the edge of the wheel. When holding the pump motor windings next to the wheel I had the pump motor held crosswise also so that the longest part of the laminations matched the longest dimension of the magnets. Since the SSG has all magnets facing north out you get an interesting waveform on the scope. As the magnet approaches one side of the laminations you get a small negative pulse. As the magnet gets centered over the laminations you get a strong positive pulse. And then again as the magnet is leaving and going past the other side of the laminations you get a small negative pulse.

What I want to do now is make a rotor with some alternating magnets and mount the coil close by and turn the rotor at a higher speed and see if I get the same effect I was getting when shorting out the transformer. I am going to have to make a trip to town I think to get some materials to make a good rotor so I can test this idea.

My thinking is if this works then you could go around to some appliance repair places and maybe get them to give you a bunch of bad pumps. From the two I have it seems the bearings wear out before anything else goes bad. Since I am not using the bearings I wouldn't care if the rotor and bearings were bad. This would eliminate about half the expense of building a generator as the wire for the coils is a big part of the expense. After that you only have the expense of the building the rotor and the expense of the magnets for the rotor. Another advantage would be all your coils would be the same and fairly high precision also.

If you get a chance to check out this idea let me know what you think.

Later,
Carroll

cheers carroll.it's good to have somewhere to post this concept on E.F.there are hundreds of metal detector circuits on the net,but i think there are a few tricks that the voodoo electricity community can bring to the table, like slightly conical pancake coils are said to be more 1 directional in their emissions/reception.(not sure if it's just more focused on 1 side or if their is a halbach array type effect,(1 directional), with pancake coils made into a cone). i don't think any conventional ground detectors mainly propagate energy downwards.maybe a deeper cone could almost beam the transmitted energy, possibly with some sort of reflector as well.ground penetrating radar on a budget.
i don't know how the performance of the finished project will compare to commercial units, but i was pleased to find success with my first dabble with 4 pin opto isolators,and at this stage it looks like 2-4 of those little solar panels from garden lights mounted on my hat could keep the batteries charged indefinitely.
i'm eager to play with the dvc speaker as well. i think any time you have a motor/generator/transformer in 1 unit,there is knowledge to be gained,if not magic to be found.
cheers.

hi gene. pic 2 is straight out of vlad's 93 page pdf and is correct.something not immediately apparent is the cap in the middle reverses polarity with every hit.the dmm is a bit flaky at quicker rates of switching,but slowed down i see glimpses of 60v +/- on the .47uf cap when there is 15 v - 25 v across the 2 big caps.the higher the voltage on the little cap and the slower the switching rate the faster the dmm sucks it down.i got a small inductor hooked up to headphones to monitor the clicks audibly.they build up rapidly on powering up the circuit and sound nice and even.
and your right. the collapsing field in the inductors,(1 in my case,pic 1), is essential for the voltage rise, as well as clean switching.if you got 15v across the 2 big caps and the .47 lands on 60v there is a 67.5v event at every switch over.really the .47uf goes from 60v+ to 60v- and vice-versa at every switching event, so maybe you could call it a 120v event. not sure about that though. and the diodes trap the over-run every time.most of the sting is always in the little cap. so i would always use a film block cap as it works pretty hard in this app. it's sort of like re-using the power from the last event every time. hope that clarifies things.
i think in years to come, the fact that you can use the same bit of power more than once, or a good portion of it, if you do it right, will come to be regarded as the best kept secret of the 20th century.
cheers.

I am also interested in this as it relates to the Tesla impulse. Here is a preview of what you have coming saying that the ampere force law experiment is detailed in that book.... hope you share, the book price on Amazon just now was almost four hundred.

The following is quoted from a pdf that I have....

"The Ampère force law confirms a number of important
experimental facts. Amongst them is the behavior of the
electro-dynamic impulse pendulum. Pappas3 of the
University of Athens was the first to discover that the performance
of the impulse pendulum could not be explained
without Ampère’s force law which invalidates the Lorentz
law and casts doubt over the entire edifice of the Maxwell-
Einstein relativistic electromagnetism. This experiment is
explained at length in Newtonian Electrodynamics,1 plus other
tests which specifically demonstrate the longitudinal force
component which acts in the direction of current in a conductor.
This component is entirely lacking in the Lorentz
force which is always completely perpendicular to the direction
of electric current. This longitudinal force component
creates tension in conductors, which is often observed qualitatively
in the behavior of exploding wires and more quantitatively
in specifically constructed experiments. Most significantly,
the Newtonian electrodynamics developed by Ampère, Neumann, Kirchoff and others simply disappeared from textbooks at the beginning of the 20th century. This isa serious scientific crisis which will hopefully inspire adventurous physicists to face the issue and return electromagnetic
theory and its wider physical implications to their empirical
early 19th century integrity."