Hi all, made another video showing how the protruding ferrite tube core does not slow down the neo magnet rotor when the coil is shorted.
You can hear the rotor slowing down at the start, with just the air coil close to the rotor.
I can't seem to find anything about the N. Tesla generator device that may have used similar principals.
Seem to recall it was built for the model T of ford company.
I already checked with amp meter previously, to confirm the amps do not increase, when testing with protruding core.
Also, if the rotor is slowed down too much, then when using the protruding core method, i can hear it slow down slightly.
So the rotor does need a threshold speed, even with this method, though does not need a mile of copper.

https://youtu.be/QNMp9PDwEeg

peace love light

Oh and nice coil cores mike, did you make those.

Okay I reread your comment the next day and putting aside all of the
tough talk(My favorite) here is what I got

"The coil type and size has one effect"

"The same coil with cap has another range of effects"

"One can not replace the other"

The new information is that just using a coil without a cap to get the
effects operate in a much higher freq range so this gives us all options
when push comes to shove in the real world experiment and we need to
fine tune or even find the window.

Thanks Mario, I will consider it a fact for use on this system.

And btw someone is sitting in the background saying "I knew it, all of
this time I have been telling everyone all you need is a tank circuit"

No, that is not what was said here so this message is for those who are
unaware that large (Non conventional windings) must be part of this
process.




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Spooling Up for my first big winding!!!

I have most of the things I need to spool up. Here are a few shots
of my materials plus a diagram of my "C" Core changes.

Thank you to all of my helpers who see my desire to do this work.
I couldn't do this without you.



















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Spooling Setup Completed

I finally did it.

Bro, no that's not what I meant. One thing is the delayed lenz effect which we 're after, or call it Kromrey effect or G-field or whatever you wish. The other thing is a resonant tank circuit
.
The delayed Lenz effect is induced when the following interconnected criteria are met: High enough coil inductance, speed (how fast the magnet passes in front of the core), core material and load resistance.
These 4 variables decide at what rpm a given setup will not slow down the motor (neutral point) or even speed up. This effect shifts the phase of the response (CEMF) of the magnetic core in relation with the passing magnet (inducer) to a point where the response (which normally would counteract the passing magnet) occurs at a delayed point in time where it can't slow down the magnet, or even assist in motoring. This needs tuning the variables, but has nothing to do with a resonant tank circuit, although both involve phase shifting.

Now, let's talk about what happens if you want marry this delayed Lenz effect with resonance. To achieve resonance in a tank circuit you need to calculate a given cap size for a given coil inductance at a given speed. If you add a tuning cap to your coil (let's skip the load for now) you will notice that it's almost impossible to run the rotor at resonance, you if can do it your motor will see the highest possible amp draw and soon burn out! Don't believe me... try it for yourself! Put a cap in parallel with your coil and try running it at resonance...It's the biggest brake you can put on your rotor. You can add a cap or if you have enough capacitance thanks to a bifilar setup you can simply use that, it doesn't matter as long as you know the resonant frequency. To measure the capacitance of you bifilar coil as you would with a cap, simply put your meter across it but disconnect the series connection for the time you are measuring it. It behaves just like a cap.

Ok, let's say you are running your setup with cap or bifilar capacitance a bit under but close to the resonant point ( at which you see a huge voltage increase). Now add your load and you will see your rotor take off like crazy and say: I did it! Wow, it accelerates under load! Ok, let it accelerate until its top speed. Now remove the cap while running, you will see that it will stay pretty much at the same speed... with or without cap, it also depends on your load resistance, the lower the resistance the more it will eliminate resonance. Of course this is much easier to see if you use a cap which can be removed instead of the bifilar because you can't turn of the bifilar capacity...

My point is, although it accelerates when you add a load to a resonant setup, it's an illusion that it is a benefit. It's just that resonance was braking it heavily before you added the load, then the load nullifies resonance depending on its resistance, and once up to speed the result with or without cap is the same. It's not that the bifilar does some kind of magic here. It is very handy to have many bifilar strands to find the right coil wire length as Dave is doing.
But remember, if you have a bifilar with very high inductance and capacitance, the resonant point gets lower, meaning that you maybe running close to a resonant point without knowing it and are convinced you have achieved the delayed Lenz effect already...
I have also done another test to see if the bifilar on it's own would be a benefit. I made a coil with one wire and another coil with the exact same wire length but cut in half and wound bifilar series connected. The two coils had basically the same total number of turns and the same inductance, the bifilar had more capacitance, but its self resonant point was way too high to be of any influence in the test. The result was that they behaved exactly the same, meaning they show the neutral point (where the load doesn't slow down the rotor) at the same frequency.

I know this is not very easy to understand so read it again until you get it, but most of all don't believe me, do the tests yourself which is the only way to learn something. What I described I learned from my tests, but if someone else sees something else I'm always open to learn something new...

Mario

Hi Dave,

I don't think there's any error in your testing method at all. You are describing what you get with the delayed Lenz effect which I totally understand, including cogging (or magnetic drag) and everything. All I'm saying is that I don't think a bifilar coil has any advantage over a "normal" coil, other than providing a handy means for finding the right wire length / size through parallel-series strand combinations. I say this based on what I've seen, but maybe you can prove me wrong.

I'm also saying that if you have many strands in series the capacitance of the coil is much higher compared to an equal coil with same amount of turns but one continuous wire. This additional capacitance, if high enough, could mislead someone into believing he's seeing delayed Lenz effect, when in reality there's also resonance at play because of the way lower resonant frequency, like I've explained in my earlier post.

Mario

leverMotor

Hi all,
now i find a video

https://www.youtube.com/watch?v=D6urptmitfY

that where a system (electric motor + load) is shown.
In which the advantageous principle of the levers is applied, saving force at the same mechanical moment.
What do you think about??

@Mario

Thanks Mario, this post should be taken note of by all and I am reading
it now. I will comment after I absorb it all. There is alot here. I hope
this mean we can work together from now on and I'll try not to ask you
a million questions. I have seen your responses in the past and you can
keep up with the advanced builders so I realize the value of your entries.

Let me think about this.I just took your picture.

What an awesome and open friendly exchange, this is an expression
well worth documenting. On one hand we have one point of view by
and experienced audio engineer (Like John Bedini) and on the other
side a man who is not book smart at all but follows the experiment.

One not better than the other, just open and honest with their separate
points of view based on the experiments they have conducted. I am
honored by you both and this is the right way to proceed in our
communications.

Let us show the world our talents together just like this.

Thank you for keeping me stirred up guys and for gracing my thread
with your presences.

Now having said that i am off to the winder, gonna wind this bad boy
up. 24 strands in all.

BTW I just took both of your picture.

I can't put my finger on that but i do remember when John B was doing
video of his harbor freight panels and he was talking about hook ups.

Can you give me a few search words so I can find this? I have had so
many things on my mind that I can't find those video's right now.

Thanks Dave, I know there was at least one video I watched like what
you are talking about and at the time it went over my head in some
aspects mainly because his talk was not solely about that subject.

I remember the impulse technology pumping action where each time
you move power for one place to another you run it thru a load? Is
that what you are referring?

Oh yeah I have #25 E.nergy F.rom T.he V.acuum


I'll rerun that tonight I think I have #24 & #25

PS thought I was ready to wind but forgot about my guides still working
on set up.

Dave, im pretty sure you know doing that (connecting parallel coils in serie) is one of the way to have as a result bucking (POC) coils...

Thanks for sharing it!

Hi Dave,

if with six to six in series you mean six strands in series, in parallel with another six to six in series, then the result sounds very reasonable.
In your early coils the 2400 feet were divided into 3 parallel strands.
In your latest version the 2400 are divided into a setup which is equal to having 2400 divided into 2 parallel strands. This has a higher inductance compared to the first one, meaning the neutral point or even speed up happens at a lower speed, or at the same speed like before but allows for loads with higher resistance.

Mario

Mario

Hi Skywatcher,

about the protruding end, I think this is what you meant:

https://www.google.ch/patents/US5244...7XBdYQ6AEIJjAA

As Erfinder pointed out a long time ago, a protruding end helps in shifting the phase of the response in the core with regards to the passing magnet, achieving the neutral point at even lower speeds, you loose a bit of power in the coil though, since it is farther away from the passing magnet. I find that all in all, having a protruding end that's not exaggerated helps.

Mario

24 Strand "C" Core Coil Winding Job


For your viewing pleasure. One 60 OZ Coil.

MIKEY STRIKES AGAIN

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https://www.youtube.com/watch?v=S2Mj-JBwVbw&feature=youtu.be





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http://flyer.thenetteam.net/3battery...trandcoil1.jpg

http://flyer.thenetteam.net/3battery...trandcoil2.jpg