- Member since Aug 27th 2020
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Posts by Plasmoid Trappers
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and did you trap plasmoids ?
No plasmoid is harmed during the experiments.
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P.S. Graphite granules became diamagnetic after the arc treatment.
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It was a pure replication of the G. Ohsawa graphite methods. The first test was with the graphite rods and graphite powder on the graphite plate, on air. The second one - underwater, in the graphite crucible. All of the items were made from pure graphite (less than 50 ppm impurities). The welding machine was used as a power source. No glass devices, no complicated. Just an arc. The adjusting was manual. I touched by the rode to the plate (or to the crucible's bottom) and then pushed him back to make a gap about 5mm. Kept the arc about several seconds, then interrupted it. Repeated it several times. Then collected and burned the residues to make ash. After that, I computed an ash content and made a chemical analysis of ashes made from initial and treated graphites.
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I attempted to replicate the Ohsawa experiments. It was thoroughly, but fruitless. I used spectral graphite rods and distilled water. After running on air, graphite powder became shined granules. However, these granules, after ignition, burned completely. The ash amount was less than 0.01% (equal to that for the initial rods). When I run the arc underwater, the black residue was formed. However, it had not ash also. So sad...
Is there anybody who made it successfully?
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I attempted to replicate the Ohsawa experiments. It was thoroughly, but fruitless. I used spectral graphite rods and distilled water. After running on air, graphite powder became shined granules. However, these granules, after ignition, burned completely. The ash amount was less than 0.01% (equal to that for the initial rods). When I run the arc underwater, the black residue was formed. However, it had not ash also. So sad...
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Is there something new about it since 2016?
