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Author Topic: Negative Inductance and measure of Magnetic force.  (Read 165459 times)

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #270 on: June 26, 2018, 01:43:25 AM »
                                                                               Permeability of Electromagnets:

"If cores of different materials with the same physical dimensions are used in the electromagnet, the strength of the magnet will vary in relation to the core material being used. This variation in the magnetic strength is due to the number of flux lines passing through the central core. if the magnetic material has a high permeability then the flux lines can easily be created and pass through the central core and permeability (μ) and it is a measure of the ease by which the core can be magnetised".

This law above is universally acknowledged. The revelation here is that, not only will the strength of the electromagnet increase in relation to the material being used but the "Electrical Output" from the material of higher permeability will increase in direct proportion to the increase in field strength. That translates into that: Doubling the inductance of a magnet pump oscillator with a higher perm core will quadruple the COP.

I plan to demonstrate this with scientific accuracy.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #271 on: June 26, 2018, 04:08:20 AM »
The inductance of the two washtub coils mounted on the synchronous laminated "U" stator is .304 Henries. This opens the door to a new kind of oscillator with permanent magnets of opposite polarity  attached to the silicon ferrite "I" stator to attract and neutralize with the spring press switch. This is too good a deal to pass up.

The horseshoe configuration coupled with the laminated steel core boasts the inductance tremendously. The air core coils alone only measure .018 Henries. That horseshoe core multiplies the magnetic strength of the coils over 16 times. I'll try to get it pumping tomorrow.

Would two sets of horseshoe stator coils in a bucking configuration MEG be 32 times over unity with a pair of field rocking SPDT switches?

synchro1

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Two tub stator MEG COP
« Reply #272 on: June 26, 2018, 02:35:04 PM »
I PMH locked two horseshoe washtub stators with the coils on each side, and pulsed one and measured voltage output on the other. The D.C. voltage in measured 9.92 at one amp. The output measured .31 volts on a D.C. pulse and 1.30 on current reversal both on the A.C. and D.C. scale.

Interesting results but no sign of spectacular gain from this setup. What's interesting is that I pre-calculated the COP at 32 X OU and it measured out at exactly the inverse of 1/32 the voltage on pulse! Coincidence? I was exactly correct minus a plus sign! This makes me wonder if there's a hidden increase in output amperage that balances the reduction in voltage? That means it would have to be generating 32 amps out. I'll try and look for it.

More inscrutable results from "Warp factor".

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #273 on: June 26, 2018, 03:58:47 PM »
My tests so far are telling me that the higher the core perm the greater the transformer spread, and I'm still on the same treadmill. The only thing of value I learned so far is that the oscillator increases voltage and decreases amperage while the pulsed D.C. MEG reduces voltage and increases amperage. Perhaps a worthwhile discovery.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #274 on: June 26, 2018, 06:36:00 PM »
These twin synchronous coils measure .018 Henries alone as air cores, and nearly 3000 times as much with the horseshoe stator and laminated cross bar:

synchro1

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Synchronous motor oscillator
« Reply #275 on: June 26, 2018, 09:43:30 PM »

Here's a simple attraction oscillator with the washtub stator and an SPDT spring pressure switch wired in series to the power through the inside electrodes of the switch: The outer SPDT switch electrodes will output a very powerful backspike. The flipper is unfastened at the back and vibrates out of position.

https://youtu.be/KzsBT8ZVeHQ


Here's an easier one that's chattering faster:


https://www.youtube.com/watch?v=Z5pib8eVGJw

synchro1

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"Skidroad" flyback transformer.
« Reply #276 on: June 27, 2018, 01:41:47 PM »
I'm blinking a reverse biased 12 volt LED off inductive kickback with a synchronous motor stator oscillator. This stator coil measures over 1/2 a Henry in inductance. The input is only 9 volts. I'm taking the kickback directly off the coil electrodes. I'm setting up to take it off the SPDT switch:

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

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #277 on: June 27, 2018, 06:16:03 PM »
Here's a picture of the oscillator with all four SPDT wires attached to the switch, a duct tape hinge on the end of the ferrite flipper, and the kickback transformer:

synchro1

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Formula for inductive kickback.
« Reply #278 on: June 27, 2018, 09:51:29 PM »
"A steady state direct current of 4 ampere passes through a solenoid coil of 0.5H. What would be the back emf voltage induced in the coil if the switch in the above circuit was opened for 10mS and the current flowing through the coil dropped to zero ampere".

We can see that the voltage of the inductive kickback is the inductance in Henrys times the current in amperage over the frequency of the current interruption in seconds:

This is where increasing core inductance pays it's rent in higher output.

What I discovered during the course of this thread is that core inductance functions as turns of copper in a transformer wrap. The ratio of core inductance to high voltage transformation was cited above in my MEG comment.

synchro1

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2 Henry "E" core oscillator and inductive kickback
« Reply #279 on: June 28, 2018, 12:11:20 AM »
I measured the flyback voltage off a 2 Henry laminated silicon steel "E" core attraction oscillator; Here's the video: Following our formula above for inductive kickback voltage, to solve for frequency: 25 volts of inductive kickback, at 1 amp, times 2 Henries of inductance factors out to a divisor of .5 seconds or 2 Hertz. That's 120 oscillations per minute.

https://youtu.be/vKc0TI76T5c

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #280 on: June 28, 2018, 03:00:12 AM »

Following Gotoluc's formula for his 'Self running coil" I next need to induce "One negative Henry" of permanent field inductance into the 2 Henry "E" core by attaching a sufficient number of permanent Neo magnets to the core.

This should be enough to generate the same oscillating power from within the coil that Gotoluc demonstrated in his series of 16 videos. I carried a case filled with the most powerful Neo magnets available on the open market from California to Costa Rica last September. Now I'm ready to try attaching them to the inductor core.

__________________

synchro1

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Temperature drop.
« Reply #281 on: June 28, 2018, 07:32:53 PM »
I started measuring the heat from the 2 Henry oscillator while running with the infrared thermometer, and it's measuring a drop in temperature. This is the opposite from what I anticipated and opens a whole new area of speculation. Maybe it's simply the cooling effect of the flipper fanning the coil?

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #282 on: June 29, 2018, 02:38:17 AM »

10 Henry choke with backing magnets and FWBR:

https://youtu.be/wxxrRVZ-a4o

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #283 on: June 29, 2018, 06:04:17 PM »
Here are 100 millihenries of negative inductance in magnetic field strength from two powerful 3" Neo disc magnets. Quote from above:


"The 10 Henry choke, which measured 10 Henries when I first got it, now measures 1.91 Henries with the core split".


synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #284 on: June 29, 2018, 06:08:05 PM »
Here are 100 millihenries of negative inductance in magnetic field strength from two powerful 3" Neo disc magnets. Quote from above:


"The 10 Henry choke, which measured 10 Henries when I first got it, now measures 1.91 Henries with the core split".