"Permanent" magnets are not permanent. They have a set amount of energy within them, stored as a magnetic field. As this energy is extracted, the magnet weakens until it is no longer capable of driving whatever it is that it's driving. It is best to view such a magnet as a type of battery and, as we all know, no battery lasts forever.
Wonderful craftsmanship. I've been watching your vids, but I have not noticed you testing the coils to see what they put out? Did I miss a vid? Great concept, but following the design, it still appears like loading down the coils, are going to slow down the arms, which in turn slows the flywheels, then loads the motor a bit more, causing more energy to be used to run it. Good luck, I hope the harmonic oscillations somehow offset this. By the way, nice 12.1 micca pissel camera. ;-)
Great work of art!! Craftmanship looks x'ss... your design with the magnets is the best I have seen Great concept it works great would love to see vid 23 with coils. what do you think the coils will do as far as maybe slow the arms down sum. CONCEPT IS BAD ASS!!!!!!!!!!!!!!!!!!!!!!!
its been 2 1/2 months from this vid i really want to see the 23rd vid.or did it not work ?either way would love to see your results i think you are on teh right track
I measured the magnet / coil current of a handshake flashlight. It was 80 to 100 milliamps. The magnet was 3/4 inch in diameter by 1 inch long. I got 2 neodymium 50 grade 1/2 by 1/2 inch circular magnets and built my own piston with the magnets in repulsion. I wrapped 3 coils on a cylinder and motorized the piston to run at 1300 RPM. Each coil had a bridge rectifier. Summing the outputs in parallel gave 1 Amp at 2 diode drops above ground. Each coil could produce about 400 milliamps.
@micropda Radio Shack sells magnet wire, 3 spools in a pack: Red, Green & Copper. The Green spool is 75 feet long. Cut the Green wire into three 25 foot lengths. For 1/2 inch long magnets, each coil should be 40 turns wide and as close together as you can wind them. Build a piston with two 1/2 inch magnets in Repulsion spaced 250 mils apart. Hook the piston up to a motor turning at 1300 RPM and move the piston through the coils. This will generate about 1 AMP at 1.2V to 1.4Volts.
@micropda I connected each of the 3 coils up to its own Bridge Rectifier and connected the outputs of all 3 rectifiers, in parallel, up to a large Capacitor. Measuring the Voltage across the unloaded Capacitor I would get 7V to 9V. Measuring the Current across the Capacitor I would get 1 Amp at best at a Voltage of 1.2V to 1.4V (Bridge Rectifier : two Silicon Diode drops about 0.7V each). The Amp meter loads down the circuit. The Voltage and Current depends on the Motor RPM.
@micropda 25 Feet of Magnet wire per coil, 40 turns wide does not make a very big Coil. I was able to use 3 coils in parallel to get to 1 AMP at 1.2V to 1.4V at 1300 RPM. The Air Gap between the surface of the Magnets and the Coils are critical. The smaller the distance between the two the better. The Coils I used were wrapped on a 19/32 diameter Brass cylinder. The 1/2 inch magnets were in a 17/32 diameter Brass cylinder. Magnets in Repulsion help to overcome the Air Gap distance.
@micropda The HandShake Flashlights that I have seen have one Coil that is as long as the Magnet. The Coil only needs to be 1/2 the Length of the Magnet. If a 1 inch long Magnet is moving through a 1 inch long Coil, when the Magnet is completely inside the Coil the Output from the Coil is Zero. The North Pole and the South Pole of the Magnet cancel each other out and the output from the coil is zero. So, cut the Coil width in half and put two Coils in parallel to up the current output.
@micropda Tesla patented a Coil Wrapping technique that allows you to Double, or Tripple, etc. the Voltage that a coil produces. The wires must be placed in parallel and the bundle of wires are then wrapped into a Coil. The ends of the wires are then connected together in a specific way. Hopefully, a technique like this can up the current output of a Coil. I have enjoyed watching your videos and I hope that you can get your Coils to output 1 AMP or more !!!
@TheUFOeffect As you move away from the surface of the magnet the field strength drops rapidly. I used a piece of magnetic film to try and see how far the
magnetic field extended away from the surface of the magnet. Using magnetic film will give you a general idea about the size of the field around the magnets when they are in a repulsion configuration. I am not sure what the exact equation would be. When wrapping coils, the closer you can get to the surface the better the results.
Hey, you were doing a great job even with the old camera,because you always use good lighting. I can't wait to see it running. I hope it does what you want, but even if it doesn't, you'll have learned a lot from the effort. And you keep building on it, right? You do such nice work, I'd actually hate for it to be over. I often wish you would do a video of the actual machine work. I can only afford to work in wood so I really love this project.
Great job, man! Better camera also helps, too
cityofbones0 9 months ago
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"Permanent" magnets are not permanent. They have a set amount of energy within them, stored as a magnetic field. As this energy is extracted, the magnet weakens until it is no longer capable of driving whatever it is that it's driving. It is best to view such a magnet as a type of battery and, as we all know, no battery lasts forever.
3lectricMonk 1 year ago
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Free Energy is real and its here! The Oil companies are doing everything in their power to stop these
information. If you want a Free energy machine do a search in youtube for the LT MAGNET MOTOR , Join the
revolution!
fittingciobb 1 year ago
Very good design resembles an insect:). But I question how long such work stand the magnets?
futurefrequenzer 1 year ago
Wonderful craftsmanship. I've been watching your vids, but I have not noticed you testing the coils to see what they put out? Did I miss a vid? Great concept, but following the design, it still appears like loading down the coils, are going to slow down the arms, which in turn slows the flywheels, then loads the motor a bit more, causing more energy to be used to run it. Good luck, I hope the harmonic oscillations somehow offset this. By the way, nice 12.1 micca pissel camera. ;-)
captainpecan 1 year ago
Great work of art!! Craftmanship looks x'ss... your design with the magnets is the best I have seen Great concept it works great would love to see vid 23 with coils. what do you think the coils will do as far as maybe slow the arms down sum. CONCEPT IS BAD ASS!!!!!!!!!!!!!!!!!!!!!!!
amaddog6 1 year ago
Kids, this is your brain on drugs. Stay in school!
(Also, the free energy claims are all BS.)
kasmackba 1 year ago
its been 2 1/2 months from this vid i really want to see the 23rd vid.or did it not work ?either way would love to see your results i think you are on teh right track
TORCHish 1 year ago
"and'nat" ahahahaha
Eaglebird 1 year ago
I measured the magnet / coil current of a handshake flashlight. It was 80 to 100 milliamps. The magnet was 3/4 inch in diameter by 1 inch long. I got 2 neodymium 50 grade 1/2 by 1/2 inch circular magnets and built my own piston with the magnets in repulsion. I wrapped 3 coils on a cylinder and motorized the piston to run at 1300 RPM. Each coil had a bridge rectifier. Summing the outputs in parallel gave 1 Amp at 2 diode drops above ground. Each coil could produce about 400 milliamps.
micropda 1 year ago
@micropda Radio Shack sells magnet wire, 3 spools in a pack: Red, Green & Copper. The Green spool is 75 feet long. Cut the Green wire into three 25 foot lengths. For 1/2 inch long magnets, each coil should be 40 turns wide and as close together as you can wind them. Build a piston with two 1/2 inch magnets in Repulsion spaced 250 mils apart. Hook the piston up to a motor turning at 1300 RPM and move the piston through the coils. This will generate about 1 AMP at 1.2V to 1.4Volts.
micropda 1 year ago
@micropda I connected each of the 3 coils up to its own Bridge Rectifier and connected the outputs of all 3 rectifiers, in parallel, up to a large Capacitor. Measuring the Voltage across the unloaded Capacitor I would get 7V to 9V. Measuring the Current across the Capacitor I would get 1 Amp at best at a Voltage of 1.2V to 1.4V (Bridge Rectifier : two Silicon Diode drops about 0.7V each). The Amp meter loads down the circuit. The Voltage and Current depends on the Motor RPM.
micropda 1 year ago
@micropda 25 Feet of Magnet wire per coil, 40 turns wide does not make a very big Coil. I was able to use 3 coils in parallel to get to 1 AMP at 1.2V to 1.4V at 1300 RPM. The Air Gap between the surface of the Magnets and the Coils are critical. The smaller the distance between the two the better. The Coils I used were wrapped on a 19/32 diameter Brass cylinder. The 1/2 inch magnets were in a 17/32 diameter Brass cylinder. Magnets in Repulsion help to overcome the Air Gap distance.
micropda 1 year ago
@micropda The HandShake Flashlights that I have seen have one Coil that is as long as the Magnet. The Coil only needs to be 1/2 the Length of the Magnet. If a 1 inch long Magnet is moving through a 1 inch long Coil, when the Magnet is completely inside the Coil the Output from the Coil is Zero. The North Pole and the South Pole of the Magnet cancel each other out and the output from the coil is zero. So, cut the Coil width in half and put two Coils in parallel to up the current output.
micropda 1 year ago
@micropda Tesla patented a Coil Wrapping technique that allows you to Double, or Tripple, etc. the Voltage that a coil produces. The wires must be placed in parallel and the bundle of wires are then wrapped into a Coil. The ends of the wires are then connected together in a specific way. Hopefully, a technique like this can up the current output of a Coil. I have enjoyed watching your videos and I hope that you can get your Coils to output 1 AMP or more !!!
micropda 1 year ago
@micropda why are you replying to yourself
Eaglebird 1 year ago
Comment removed
micropda 1 year ago
@micropda: yes the distance between the magnet and the coils is critical. Do you know if the equation is an inverse or an inverse square?
TheUFOeffect 1 year ago
@TheUFOeffect As you move away from the surface of the magnet the field strength drops rapidly. I used a piece of magnetic film to try and see how far the
magnetic field extended away from the surface of the magnet. Using magnetic film will give you a general idea about the size of the field around the magnets when they are in a repulsion configuration. I am not sure what the exact equation would be. When wrapping coils, the closer you can get to the surface the better the results.
micropda 1 year ago
@micropda: if you have 2 magnetis it may be electrostatics.
TheUFOeffect 1 year ago
Hey, you were doing a great job even with the old camera,because you always use good lighting. I can't wait to see it running. I hope it does what you want, but even if it doesn't, you'll have learned a lot from the effort. And you keep building on it, right? You do such nice work, I'd actually hate for it to be over. I often wish you would do a video of the actual machine work. I can only afford to work in wood so I really love this project.
4sineweaver2 1 year ago
Im still waiting for actual measurements. Hope your efforts are not fruitless.
kakureru 1 year ago
nice video two thumbs up
solorstars 1 year ago
They are no longer gold colored :)
rainstarr 1 year ago
Comment removed
rainstarr 1 year ago
I've been following you for a long time! you are so close now! i send my energy to you! work slowly, be steady.
vishizs 1 year ago