Mechanical free energy devices > mechanic
Getting energy from asymmetry of the magnetic field experiment
ayeaye:
On the figure 1 below is the position of the magnet and disk, where the asymmetry was the greatest. About the dimensions, the ceramic disc magnets there are 25 mm in diameter and 5 mm thick. The iron nut there is in the neutral position.
When moving the iron nut to the 6 o'clock position and then releasing the disk, the nut moved fast to the neutral position. But when the nut was in any position in the opposite direction from the neutral position (the negative side), it stayed in place in every position and didn't move.
When trying to measure it with a thin rubber band, the maximum force on the positive side was somewhere around 0.01 N, on the negative side the maximum force was likely not more than 0.005 N, in fact the force was too weak for my rubber band to measure anything.
I think that even my 1 N range spring scales that i ordered, are not capable of measuring so weak forces. A precise force gauge is capable of that. One can clearly feel these forces by hand, yet they are too weak to measure.
The theory and evidence why such asymmetry supposed to provide energy, is in this thread https://overunity.com/18288/power-from-repelling-magnets/ .
Like, compare this experiment to the field lines of a magnet on the figure 2 (shown by iron filings). You see that what this experiment seems to show, somewhat corresponds to the usual asymmetry of the magnetic field near the pole of a magnet.
sm0ky2:
When a magnetic field exists in the domain of another magnetic field:
Asymmetry always exists.
Because there is not an equal and opposite field on the opposite pole of the field.
One side of the field warps in response to the dominant field.
The opposite pole responds oppositely
Asymmetric
The only time the field is symmetrical is when it is undisturbed.
We create symmetry with out architecture
Orientation of magnets and coils, etc.
Anything outside of this, symmetry is broken and all theory goes out the window.
ayeaye:
Yes i couldn't measure the forces with my spring scales. Because forces are too small.
I have this idea now, if anyone wants to hear. Move a pole of a smaller narrow magnet, some 45 degrees linearly pass the big magnet. I tried it by hand, i would say that the forces should be measurable, and by hand the attraction feels greater before passing the magnet, than after passing the magnet. Moving by hand proves nothing though.
I found that all that is necessary, is the small magnet to move by a slippery surface, such as plastic. Because of the forces, nothing else is necessary, and on that surface the forces are only on one line, i tried that too. So all that is necessary is to attach some thread to the lower end of the small magnet, attach the hook of the spring scales to it, and move the magnet by moving the spring scales, stopping after every small distance.
I further thought, when the video is captured from above, no scale is necessary for distance measurement, because distances can later be measured from the video. Also as i said, it's better to add an additional paper disk around the hook rod of the spring scales near the end, then all the measurements can be seen from the same view of the camera.
I though one way to do it, is a transparent plastic box, though not inevitably necessary. Then the big magnet can be attached inside the box to its side, and the small magnet is moved on the lid of the box. Just one way that came to mind, not necessarily the only one, but there is not necessarily a need for a bench, because the forces are all on one line, this simplifies it.
Just what came to my mind, not necessarily the best. But doing that is too difficult.
Below is the photo of my spring scales. These have 1 Newton range. These spring scales did cost $2.80 from ebay, they are very precise and work well.
citfta:
I am looking forward to your video.
ayeaye:
Just a simple drawing, to give some idea how this experiment supposed to happen. Not much to draw, but drawing always makes it more clear. The principle is to move around the small magnet on the surface, with scales. The best surface is something very slippery, such as glass. But plastic will do, i tried it, holding everything by hand. I will likely not do this experiment, because it is very difficult.
By asymmetry again i mean non-Coulomb asymmetry, or non-Coulomb irregularity.
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