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Spontaneous charging radiantly charged capacitor research group

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  • #31
    Rebound

    Conditioned caps do seem to rebound more, but it seems very inefficient as an energy collection method; more that it is interesting from an academic point of view.

    YouTube - semi conditioned capacitor rebound

    Love and light
    Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

    Comment

    • #32
      How high does that one get?

      Matt

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      • #33
        How high

        I only conditioned it (had it sitting on c100v, where radiant input = capacitor losses, discharging every 20min or so thru a 240v incandescent globe) for about 4 hours; it hasn't been used before for any purpose. I disruptively discharged it once before I did the video.

        Now it's 5 hours later, and it's still on 6.34v, having reached 6.42v 30min after the discharge shown on the video.

        With more conditioning I would expect it to sit at a higher voltage.
        Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

        Comment

        • #34
          It probably will. Thats alot bigger cap (Physical size) than I played with. I also had 3 in series 100v 1000uf.

          Are the discharges bright green? I had someone tell me the copper in the capacitor was the reason. But I discharged them accross 2 iron welding rods. They had to find a new explanation then. LOL
          Neat stuff, but your right its not a power source.

          One of the things I would like to try is some 5 gallon bucket caps (Homemade). That would a good test to see if they recharge at regular rate. Also see what effect it has on cap with no prior AC/DC input.

          The factory always tests the capacitors you buy.

          Matt

          Comment

          • #35
            Yeah green

            The discharge spark is green in the centre, about 2cm in diameter; looks like a ball of plasma.

            The green doesn't show up well, but the blinding white flash does;

            YouTube - capacitor discharge

            Quite fun though
            Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

            Comment

            • #36
              They are fun.

              Matt

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              • #37
                Thanks Inquorate for taking this further

                I think you have 2 of those 10,000uf caps right? what if you set them up on a DPDT switch but not short them, use identical resistors as loads. It may show a different result?

                Obviously one cap would be conditioned and charged by the Bedini and the other would be charged by a DC power supply.

                Thanks for taking the time to test and share this mate

                Luc

                Comment

                • #38
                  The last in the series

                  Back by popular demand, I used a conditioned and non conditioned capacitor, you can see obvious differences in the charging and discharging phenomena.

                  I'll be moving on to other experiments now, but hope that if others experiment on this that they show their results here.

                  YouTube - conditioned capacitor v not; charge and discharge differences

                  Love and light
                  Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

                  Comment

                  • #39
                    Thats good work brother.

                    I was thinking about how to charge a cap with just regular energy.

                    An inverter could charge a cap with 110/120 volt or maybe 220/240 depending on the inverter. Of course the output would have to be rectified. And it might be dangerous.

                    But then the test that Gotoluc described could validate some results. It would also help to get some numbers.

                    Hmmm?

                    Something to think about.

                    Matt

                    Comment

                    • #40
                      Originally posted by Inquorate View Post
                      Back by popular demand, I used a conditioned and non conditioned capacitor, you can see obvious differences in the charging and discharging phenomena.

                      I'll be moving on to other experiments now, but hope that if others experiment on this that they show their results here.

                      YouTube - conditioned capacitor v not; charge and discharge differences

                      Love and light
                      Thanks Inquorate for doing this extra test.

                      What this test is now demonstrates clearly is that an unconditioned cap will not take a so called Radiant charge.

                      I would say this is worth more investigating!!! ... what do you think Dr Stiffler?

                      Great work mate

                      Thanks for doing this test and sharing.

                      Also, clean looking video once again! 5*

                      Luc

                      Comment

                      • #41
                        Originally posted by Matthew Jones View Post
                        Thats good work brother.

                        I was thinking about how to charge a cap with just regular energy.

                        An inverter could charge a cap with 110/120 volt or maybe 220/240 depending on the inverter. Of course the output would have to be rectified. And it might be dangerous.

                        But then the test that Gotoluc described could validate some results. It would also help to get some numbers.

                        Hmmm?

                        Something to think about.

                        Matt
                        Hi Matt,

                        I hope you can continue the tests to continue to demonstrate and document the advantages of conditioning Caps.

                        If you just use 120vac and add a FWBR you will have 170vdc to charge a cap. So just charge your conditioned caps to this voltage and do a comparative test with an identical load to see how much recovery occurs but maybe it's not about cap recovery the advantages are, so do the same test as Inquorate did and calculate how much time it take to charge a condition cap from 0 to 200v and then use the identical cap that have not been conditioned and time how much time it take to charge them using the same Radiant charger Without making any changes to it.

                        Luc

                        Comment

                        • #42
                          @Inquorate,

                          can you do some checking on the unconditioned cap you used in the video to see if somehow it could be internally damaged (short), since come to think of it is unusual that a cap is at 0.0vdc. Usually they have some kind of residual voltage like 0.13 or something insignificant.

                          I hope you don't take this personally, as that is not where it's coming from.

                          Thanks for your great work

                          Luc

                          Comment

                          • #43
                            I'll have one more go

                            Originally posted by gotoluc View Post
                            @Inquorate,

                            can you do some checking on the unconditioned cap you used in the video to see if somehow it could be internally damaged (short), since come to think of it is unusual that a cap is at 0.0vdc. Usually they have some kind of residual voltage like 0.13 or something insignificant.

                            I hope you don't take this personally, as that is not where it's coming from.

                            Thanks for your great work

                            Luc
                            It just occurred to me that I have a 2 amp isolation transformer (duh), light dimmer circuit, etc and a huge 60amp bridge rectifier.

                            I'll see what I can put together; one more for the team

                            And I'll check the capacitor, or use one of the others after 'unconditioning' it.
                            Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

                            Comment

                            • #44
                              Testing previous experiment's results

                              YouTube - double checking conditioned capacitor charging experiment

                              One more coming soon, having internet connection issues
                              Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

                              Comment

                              • #45
                                Dc v radiant

                                Spring back is the same; here's the experiment.

                                YouTube - dc vs coil collapse cap charge
                                Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

                                Comment

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