I can't keep up with it all, but saw user "Bedini-Ukraine" was looking at superpole arrangements, something I have not done. Wanted to post this video of different magnetic arrangements in terms of rotational speed.
Background:
I first got this idea from video poster JZD14me https://www.youtube.com/watch?v=wBkvzbw5cDM he's got a physical bipolar commutator going on and I just thought this was interesting. Next Tom Bearden explained to me, in one of the energy from the vacuum series (will have to dig it out) that when you have magnets on a rotor offset from one another, a magnetic gradient is there that an electromagnetic core would "see". His explanation demystified the whole V-gate magnetic motor thing for me. He also mentioned that there were, before "hampered" attempts to commercialize this technology. I also saw 10 seconds of John Bedini having built something on this approach many moons ago. So I figured, really simple explanation that even I can understand, something like this was ready for commercialization, maybe even I can build something that would show a difference using super glue and masking tape. So this video looks at a progressive series of tests of further inset permanent magnets on a rotor.
Discussion: I quite honestly, to my knowledge, and certainly never practically, have done anything over-unity. I realize more and more as I get into this why JB mentioned to just first do things exactly to his specs, I just have too much fun going all over the place. Don't know what would happen to the magnitude of the inductive spike with this set-up, that is an interesting question. Otherwise looks pretty good, in part 2 I will show how this set-up behaves at very low voltages, it just takes so long to video edit all this nonsense.
On a different note, I have been thinking a lot about how to actually build this with some precision, when I talked to a machine shop I realized I was looking at 200-1,000 dollars for a stinking 6 inch rotor. I did a search on "Maryland 3D printing" and found that the county over from me started a 3d printing lab one month ago to increase the use and adoption of 3D printing. Also heard that a library in Washington DC has open time to print stuff on a 3D printer. So I am in discussions to actually do an improved version(s) of this rotor. More to the point, for maybe half of what people need to build that requires precision, there looks to possibly be an inexpensive way to do this with 3D printing.
Here is the parsed video of the experiments
https://www.youtube.com/watch?v=Dulg...ature=youtu.be
Will post a video of this thing causing rotation at low volts next, but I think it is etiquette for stupid energy related videos to often have a bad soundtrack appended, to the extent possible will try to follow such in future. However, this girl went to high school a couple towns over from me, never heard of her until a few months ago, we lost her to melanoma a few years back so in place of a soundtrack to my video I give you the Great Eva Cassidy.
https://www.youtube.com/watch?v=4RDmXsGeiF8
Ciao
Paul
Background:
I first got this idea from video poster JZD14me https://www.youtube.com/watch?v=wBkvzbw5cDM he's got a physical bipolar commutator going on and I just thought this was interesting. Next Tom Bearden explained to me, in one of the energy from the vacuum series (will have to dig it out) that when you have magnets on a rotor offset from one another, a magnetic gradient is there that an electromagnetic core would "see". His explanation demystified the whole V-gate magnetic motor thing for me. He also mentioned that there were, before "hampered" attempts to commercialize this technology. I also saw 10 seconds of John Bedini having built something on this approach many moons ago. So I figured, really simple explanation that even I can understand, something like this was ready for commercialization, maybe even I can build something that would show a difference using super glue and masking tape. So this video looks at a progressive series of tests of further inset permanent magnets on a rotor.
Discussion: I quite honestly, to my knowledge, and certainly never practically, have done anything over-unity. I realize more and more as I get into this why JB mentioned to just first do things exactly to his specs, I just have too much fun going all over the place. Don't know what would happen to the magnitude of the inductive spike with this set-up, that is an interesting question. Otherwise looks pretty good, in part 2 I will show how this set-up behaves at very low voltages, it just takes so long to video edit all this nonsense.
On a different note, I have been thinking a lot about how to actually build this with some precision, when I talked to a machine shop I realized I was looking at 200-1,000 dollars for a stinking 6 inch rotor. I did a search on "Maryland 3D printing" and found that the county over from me started a 3d printing lab one month ago to increase the use and adoption of 3D printing. Also heard that a library in Washington DC has open time to print stuff on a 3D printer. So I am in discussions to actually do an improved version(s) of this rotor. More to the point, for maybe half of what people need to build that requires precision, there looks to possibly be an inexpensive way to do this with 3D printing.
Here is the parsed video of the experiments
https://www.youtube.com/watch?v=Dulg...ature=youtu.be
Will post a video of this thing causing rotation at low volts next, but I think it is etiquette for stupid energy related videos to often have a bad soundtrack appended, to the extent possible will try to follow such in future. However, this girl went to high school a couple towns over from me, never heard of her until a few months ago, we lost her to melanoma a few years back so in place of a soundtrack to my video I give you the Great Eva Cassidy.
https://www.youtube.com/watch?v=4RDmXsGeiF8
Ciao
Paul
Comment