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Caution when building LaFonte Pseudo Solid Rotor

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Butch LaFonte:
The rotor ferro-magnetic material must be AC electric motor or transformer quality material.
The material needs to retain as little magnetism as possible when the external field is removed or it will reduce the overunity effect. Also produce as little eddy current drag as possible.
I am using electrical steel laminates custom made in a shop. The alloy is M19 and .025" thick. It is bonded not riveted.
I will post fabrication drawing today for anyone interested.
Please use electrical steel or other AC electric motor rotor or transformer materials when doing these tests if you are building one of my designs. The results will be very much different.
Thanks,
Butch

This is an old post>
Go to butchlafonte.com to view new test model, Thanks, Butch
This is an old post>
Go to Custom 2 page on my site and see the LaFonte Pseudo Magnet motor. This is very hard to figure out unexplained, so I will do so now. There are two separate rotors that rotate on the same axis. One is drawn into the wedge shaped red permanent magnet fixture just as a steel ball is in the SMOT, but using square ferro-magnetic bars. There it stops in the sticky spot at the top of the drawing. The second rotor now is drawn into the wedge and it's bar becomes flush with the first. Now, the two bars together move the first bar out of the flux path with little to no work because the magnets see them as one solid bar and it is free to move away leaving the second bar behind in the sticky spot. The first bar then rotates around and starts the cycle again moving out the bar left behind in the sticky spot. Seeing the two rotors in 2D is a little hard to see their geometry, but maybe the side and end views will help.
Thanks,
Butch
http://butchlafonte.50megs.com/
Custom 2 page

This is an old post>
I'm looking for people to replicate my tests results from a design I have come up with. Should we have been using square moving elements in the SMOT and other designs? The reason being the if the two squares match up even enough, then the two pieces could act as a pseudo solid with respect to being pulled away from a magnetic field. See my drawing on my old web page. There would be some eddy current drag, but that can be eliminated with laminating and materials technology. The element in the sticky spot could be moved out and the incoming element take it's place as the two act as a solid till the first element is out of the field, then it is free to move away from the fixture.
The seam between the two should not cause any drag to speak of.
Try it at home between two magnets with a solid bar 2 inches long and then try it with two
1 inch bars that are touching and see if there is any difference.
My web address > Go to the custom 1 and 2 pages >
http://butchlafonte.50megs.com/

Butch LaFonte:
This Pseudo Solid idea of my is just to simple to believe, but my tests here show it works. There would have to be a ramping effect for the second piece of steel to come in and move it out. A ramping effect like the SMOT. See my old web page, bottom drawing on the custom page, listed on left of home page>
http://butchlafonte.50megs.com/
Thanks,
Butch

prometheus_effect:
Butch,

You forgot to add in step 7 where you take away block B and get a null net gain.

Prometheus Effect

Butch LaFonte:
Promethus,
In step 7 the cycle is started over again and B is moved out by A coming through again.
Butch

Butch LaFonte:
Go to Custom 2 page on my site and see the LaFonte Pseudo Magnet motor. This is very hard to figure out unexplained, so I will do so now. There are two separate rotors that rotate on the same axis. One is drawn into the wedge shaped red permanent magnet fixture just as a steel ball is in the SMOT, but using square ferro-magnetic bars. There it stops in the sticky spot at the top of the drawing. The second rotor now is drawn into the wedge and it's bar becomes flush with the first. Now, the two bars together move the first bar out of the flux path with little to no work because the magnets see them as one solid bar and it is free to move away leaving the second bar behind in the sticky spot. The first bar then rotates around and starts the cycle again moving out the bar left behind in the sticky spot. Seeing the two rotors in 2D is a little hard to see their geometry, but maybe the side and end views will help.
Thanks,
Butch
http://butchlafonte.50megs.com/
Custom 2 page

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