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Author Topic: Negative Inductance and measure of Magnetic force.  (Read 165457 times)

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #300 on: August 20, 2018, 07:00:39 PM »
There are two things to take note of in this video: One, the Neo magnets are positioned N-S, opposite poles on each side of the gadolinium. Second; The temperature increase is instantaneous:


Precisely at the Currie point, a small increase in temperature would cause the gadolinium to grow non-magnetic and shunt the PM field.

https://www.youtube.com/watch?v=o8gBtNsL1Kc

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #301 on: August 21, 2018, 06:25:12 AM »
The temperature rise in gadolinium is 2 degrees Celsius per Tesla of magnetic force. A synchronous motor-stator, configured as a horseshoe electro magnet around a gadolinium flux gate (The same size as the diametric cylinder rotor magnet), with two neo cylinders at 90 degrees that would allow the magnet wraps to generate current both as the gadolinium shunted and grew magnetic too.

We would need two gadolinium flux gates plus two horseshoe EM's and four Neo cylinders wrapped with copper output coils and two cross bar magnets at each end.

This would give us four horseshoe magnets; Two electro at 90 degrees to trigger the flux gates and two PM horseshoes connected on each end. This entire apparatus would rest in a temperature controlled enclousure.
« Last Edit: August 21, 2018, 03:03:40 PM by synchro1 »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #302 on: August 22, 2018, 03:15:05 PM »
Here's a picture of the stator and rotor. The "Gadolinium flux gate cylinder" should be the same size and sit in the same position:

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #303 on: August 22, 2018, 07:08:43 PM »
The Peltier module coupled with powerful PM's can speed the frequency up:

synchro1

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Arduino temperature control
« Reply #304 on: August 23, 2018, 03:23:19 PM »

The Arduino board and temperature control circuit can regulate the temperature of the gadolinium cylinder to within a 1/00th of a degree centigrade with a Peltier module..

The temperature of the gadolinium needs to be raised by both the permanent magnets and the EM stator to a point above the currie point of 68 degrees Fahrenheit.

The Peltier and Arduino circuit can cool it to the exact temperature, then the power and pulse width to the EM coil can be adjusted. The duty cycle would control the output duration. A signal generator would help do this job.

synchro1

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Centigrade in 1/00ths
« Reply #305 on: August 23, 2018, 06:07:09 PM »
Arduino LED in hundreds of a degree centigrade:

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #306 on: August 24, 2018, 03:13:11 PM »
The cost in power to generate a magnetic field through copper coils that would equal the attraction strength of the magnetic state gadolinium would result in the gain factor. Cost to the electro-magnet to transform the state would be compared to the amount of power it would take an electromagnet to generate the same attraction strength. It's obvious that there's an over unity ratio.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #307 on: August 25, 2018, 04:11:32 PM »
A toroid shaped ring of gadolinium, wrapped with a copper coil and surrounded by a circular Halbach array sandwiched between two Peltier modules could both trigger the transition and collect output through an SPDT switch.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #308 on: August 27, 2018, 05:34:17 PM »
I ordered this 1" cube for testing:

AlienGrey

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Re: Negative Inductance and measure of Magnetic force.
« Reply #309 on: September 02, 2018, 02:49:06 PM »
Here's a picture of the stator and rotor. The "Gadolinium flux gate cylinder" should be the same size and sit in the same position:
Nice view out of the window ! Magnetism what is so special about it ? sure it has it's place but it slows things down
if you want to travel hyper space find ways to beat it, wast it, get rid of it!
« Last Edit: September 02, 2018, 05:25:21 PM by AlienGrey »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #310 on: October 01, 2018, 04:27:04 PM »

Imagine replacing the contact switch with the SPDT and running the output to the capacitor through a FWBR in this oscillator: Start the video at 2:20:

https://www.youtube.com/watch?v=Cuobx2uPgY0

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #311 on: October 02, 2018, 09:38:31 PM »

Here's another video from the same guy: He uses a spring pressure switch and toward the end of the video he shows a piggy back generator: Just imagine what the addition of the double throw press switch would do connected to the loop circuit!


Turning the power up still runs the solenoid motor at a push when looped, but how do we factor in the increased power that appears in the flywheel?


When we add power to the pulse coil, the magnet piston travels at a greater speed through the coil generating more power.

https://www.youtube.com/watch?v=MqG3yC58Maw

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #312 on: October 04, 2018, 04:06:12 PM »
Propelling a magnet with pulse coil will double the propulsion range if we double the magnet strength while keeping the input pulse steady.


We need to add these forces to calculate the actual propulsion force exerted by the magnets in the output coil.


The solenoid motor is producing twice the power it's transferring to physical work. The other half is wasted generated electric power!

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #313 on: October 06, 2018, 12:20:53 PM »
Increasing power to the double throw "Loop" solenoid motor would increase the output at an extended even exchange rate, and the flywheel acceleration would emerge as free power.

Increasing the input from 1 watt to 2 watts would double the rpm and match the increase with output. This would generate 1 free watt of mechanical power.


« Last Edit: October 06, 2018, 03:58:04 PM by synchro1 »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #314 on: October 06, 2018, 06:39:18 PM »
SPDT micro roller switches: The designer of this 3-D printed solenoid twin has two SPDT micro roller switches in place, but the third blade is not connected to anything on either switch! It's possible to fully recover the power pulse through that third electrode!


The SPDT switch connects the coil ground first through the power source then through the storage capacitor. So the switch changes the positive coil wire in series from battery positive in series to the capacitor positive with a shared ground. The coil alternating between power destination and power source.
« Last Edit: October 06, 2018, 10:36:07 PM by synchro1 »