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Author Topic: Negative Inductance and measure of Magnetic force.  (Read 165495 times)

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #45 on: December 29, 2017, 02:28:23 PM »
This is the final finished design. The "Latching Reed Switches" alternate; The trigger magnets are N.S.N.S. The power on time is 5 seconds; 1 second for the masking pulse, 1 second for BEMF cleansing followed by 3 seconds of output. Both NOTC Timer Relays are activated and deactivated simultaneously by the alternating Reed Switches.

This setup delivers a constant series of cycles with no lapse at .05 Hertz.

synchro1

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Carousel latching reeds.
« Reply #46 on: December 31, 2017, 01:14:20 AM »
Here's a look at the carousel commutator latching the alternating reed switches. Still some fine tuning left. Next comes the timer relays:

https://www.youtube.com/watch?v=vpX2RGpEKh4

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #47 on: December 31, 2017, 04:33:41 PM »
Kinetic Art.


Happy new year folks. What's the value of kinetic art? This is a philosophical quandary.I'm sitting here staring at this contraption I wandered into and realized I could wire a 555 on a bread board to do the same work in under an hour. Thinking more on it I realized I already purchased a third timer relay that has the 555 circuit, so the commutator is just more crap for the junk box.


I caught myself by the tail again.


"Kinetic art - art that depends on movement for its effects - has its origins in the Dadaist and Constructivist movements that emerged in the 1910s. It flourished into a lively avant-garde trend following the landmark exhibition Le Mouvement  at Galerie Denise Rene in Paris in 1955, after which it attracted a wide international following".

synchro1

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Greetings from paradise.
« Reply #48 on: December 31, 2017, 06:39:57 PM »

synchro1

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Magnet oscillator.
« Reply #49 on: January 03, 2018, 07:30:50 PM »
This video is interesting because it has the potential to generate power in the jouncing coil: The permanent magnet field is passing through the AA battery and magnetizing the positive nipple of the battery with a negative polarity. The tail end of the copper coil is grounded through the magnet discs at the base. The battery is channeling a permanent magnet field and the permanent magnets are conducting electrical current. This is an ingeneous setup. Remember Hob's principles. Lengthening the coil would increase the coil's magnetic field for the same input! This coil should illuminate an LED as a flyback transformer.

https://www.youtube.com/watch?v=o8VxPNwRuxA
« Last Edit: January 04, 2018, 02:30:31 AM by synchro1 »

synchro1

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AA Homopolar.
« Reply #50 on: January 05, 2018, 12:02:57 AM »
I measured the AA for inductance and Ohmic resistance and discovered that it was possible to make the battery ring by shock charging it with D.C. current. Attaching 12 volt D.C. electrodes to the AA first makes the battery start to hum, then it continues to hum after the power's removed; While the AA's humming it shunts any permanent magnetic field. I grew very excited about this effect but when I tried to adapt multiple AA's to the masking oscillator they failed to work simultaenously because they have low manufacturing tolerances.

This Homopolar oscillator has captured my attention because of it's infernal simplicity and the similarity to the neutralization oscillator I've been testing.

Follow along with me a little more on this: Imagine we attached the base magnets to the base of a U shaped magnetic metal frame, and mounted an LED with a reflector shield in front of it on on end, then attached the reverse biased LED electrodes to both ends of the spring coil with high gauge (Very thin) magnet wire to run HV flyback into the bulb, and used the rear portion of the U frame for a handle. This would make a pretty coil emergency storm lamp right!

This oscillator has a lot of potential for those two reasons along with our Hob Nilre test results. For example; If we position a second AA on top in series with the first and double the length of the copper spring coil, we can illuminate a second LED equally bright for the same input.

synchro1

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Two AA battery magnet oscillator
« Reply #51 on: January 05, 2018, 04:12:41 PM »
Here's my entry with double the batteries and twice the coil length. I'm using the Neo sphere to repel the coil from the bottom to impart greater force to the oscillation:

https://www.youtube.com/watch?v=lx5X35GJtic

synchro1

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AA oscillator coil
« Reply #52 on: January 06, 2018, 01:37:53 PM »
Here's a bettor look at the oscillator coil: Double the coil length will generate twice the magnetic field  for the same unit of input along with twice the "Flyback" power and illuminate two times as many reverse biased LED's as a coil half its mass in copper.
« Last Edit: January 06, 2018, 03:46:57 PM by synchro1 »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #53 on: January 06, 2018, 08:52:34 PM »

Here's a picture of the two AA batteries in series lighting a single 3 volt LED with D.C. current through the Neo sphere magnet: 25 feet of copper wire conductor is not increasing circuit efficiency in this example:

synchro1

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Reverse biased LED lighting off BEMF.
« Reply #54 on: January 10, 2018, 04:54:09 PM »
This was very tricky to video capture because I don't have three hands. I finally got it wired to light the reverse biased LED connected to the top of the coil and the bottom of the coil between the oscillating lead and the coil itself. I can fix the electrodes in place and light a whole bank of LED'S this way now:

https://www.youtube.com/watch?v=W2CmxkPLgVs



synchro1

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Oscillator lighting 3 LEDS off flyback.
« Reply #55 on: January 11, 2018, 06:02:15 PM »
Here's a video of the oscillator lighting a small bank of reverse biased LEDs: Next I plan to add additional LEDS to the rail to see how many it can illuminate.

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

synchro1

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LED anode and cathod
« Reply #56 on: January 12, 2018, 02:39:59 AM »

Here's a schematic of an LED identifying the long electrode as the anode or positive;

synchro1

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12 LEDS illuminated by oscillator flyback.
« Reply #57 on: January 12, 2018, 06:42:12 PM »
Here's a video of the oscillator lighting 12 LEDs on flyback. The 3 volts D.C. will only light 1. Frequency increases LED light intensity: The anode or positive electrode of the LED, (The longer prong) must connect to the negative contact and the negative or shorter prong to the positive end of the coil to light up from the oscillating flyback. The 3 volts of D.C. current will only light one LED connected the other way around, the way they're designed to work, with the anode to the positive and the cathode to the negative pole of the two AA batteries in series.


https://www.youtube.com/watch?v=6BDAX8Lm1kY


The power that illuminates the 12 LEDS in this video is strictly a function of the copper mass in the spring coil and core permeability, not the input from the AA batteries. This is a clear example of an Overunity generator in action!

synchro1

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Oscillator coil inductance.
« Reply #58 on: January 12, 2018, 08:13:40 PM »

I measured the oscillator coil inductance at .010 mH (milli henrys) with the AA batteries acting as a coil core and .004 mH alone as an air core coil. This test demonstrates that the AA batteries act as a very powerful core material, more then doubling inductance over the air core. This factor alone more than doubles the magnetic field in the spring coil and more than doubles the flyback power from the field collapse.

sm0ky2

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Re: Negative Inductance and measure of Magnetic force.
« Reply #59 on: January 13, 2018, 12:31:03 AM »
The difference between an a/c signal (reactive power)
and a pulsed d.c. signal (negative inductance)
is the off-cycle.
No current is drawn from the source during field collapse.
if the load is powered only during this time
The power through the source is only a factor of the induction.
The Lenz/Lorentz force is only fighting the free-space induction
not the current from the source.
There are no changes from source to load.

The source basically does not see the load.