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Anonymous at Wed, 23 Oct 2024 20:19:02 UTC No. 16446289
3 experiments for the stout copper bars.
For those unaware, the stout copper bars was a popular science showcase experiment presented by Nikola Tesla in front of electric engineers and at world fairs in the late 19th century.
http://www.tfcbooks.com/tesla/1893-
https://waveguide.blog/brief-histor
https://transformacomm.com/en/tech/
Even for those more concerned with mainstream electrodynamics the experiment is a creme-du-jour for understanding impedance and reactance
https://waveguide.blog/impedance-sk
Each of these experiments will largely mimic the setups in the prior links with the difference that i will not be using an over ignition transformer or a high voltage neon sign. As Tesla indicates even the non-safety primitive versions do not display as an astute affect as with a leyden jar discharge.
>In a Leyden jar discharging through a short stranded cable of thin wires these requirements are probably best fulfilled, and the resonance effects are , therefore very prominent. Such is not the case with dynamo machines, transformers and their circuits, or with commercial apparatus in general in which the presence of iron cores complicates the action or renders it impossible. In regard to Leyden jars with which resonance effects are frequently demonstrated, I would say that the effects observed are often attributed but are seldom due to true resonance, for an error is quite easily made in this respect.
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Anonymous at Wed, 23 Oct 2024 20:21:33 UTC No. 16446292
>>16446289
In experiment A, we compare the results of monstein and wesley to determine if our wave is of the same character given that it is short circuited across the stout copper bars
In experiment B we attempt to match absorption bands of the H2O symmetric and asymmetric stretch bands by modifying our spark gap distance and "elasticity" . If successful getting water to absorb this energy, we try to induce 28 harmonic overtones of this absorption to knock the hydrogen off the oxygen, for ultra efficient electrolysis.
In experiment C we explore piezoelectrics under these conditions, and consider different crystal geometries and heterogeneous lattices to explore the character of the magnetic vector potential, and ideally create the first real light saber. Experiments with radium doped crystals and ones with non-linear optical effects. with a focus on understanding the electrodynamics nature of the micro-tubule