I should get several hundred cycles per sec sine wave high voltage AC with this. It will take several days for the fiberglass resin to get hard before a spin test. It makes two sine waves per revolution. The oscilloscope will tell me how many sine waves per second. The winding not spinning but fixed will permit me to experiment with several winding coils for coming up with something adequate.
The resin hardened faster. Vibration problem under control. See that candle? See that hardened resin? By applying either while liquid between two high voltage dc plates until solid a new electronic device called a permanent dielectric is created. I knew this when I that that flying saucer in Sachse Texas in 1988. So what? So cut like pie pieces and every other inverted fused into a disc then spinning gives AC high voltage out wireless. The same can be designed into a stack and that generator I had in mind using some 30 years ago.
t’s not plasma. The accelerated ions can be cold. It’s that the rebalser is high puncture strength fused metal oxide coated so there can be no Arc breakdown under any circumstances. It’s only the leading edge of uncoated metal tubes where ionization occurs. This means in a vacuumed environment the a.c. frequency must be high. How high requires experimental data. The dc ion motor for vacuumed environment requires both emitter and collector to be exposed metal. The thrust is low because increasing the voltage past corona results in a hot spot created on the collector causing arc breakdown. The Rebalser for being non conductor high puncture strength won’t break down hence can give a higher static thrust in a vacuum. The Rebalser can only work with a.c. A hint is one Colomb charge seperated one meter distance can lift the weight of a battleship out of the water. So then the force hence acceleration in Ac useing realised is potentially enormous but the energy is not free. It must come through the a.c. generator by rocket turbine high speed torque. The generator size hence weight can be reduced with superconductivity.
This moving picture is incredible. I increased the applied Ac voltage.
Lab Motor 8 Thousand Volt Test
Lab Motor 10 Thousand Volt Test
If you notice this motor I tested at 10 thousand volts, you can see the thrust is more than doubled then when it was tested at 8 thousand volts. With such a large increase it would be foolish for NASA not to conduct their own experiments how static thrust increases with applied voltage increase.
I succeeded in building A 16 thousand volt sine wave a.c. power supply. It will take awhile to do some testing to get the new measurements what the new separation distance between the Ac emitter and rebalser should be. I estimate twice the distance about 16 to 20 millimeters. I anticipate a thrust from two to four times what it was at 10 thousand volts. It could be even greater because a lot of variables change. Increase in current, voltage, and avalanche distance, volume of air effected.
Update: It failed to deliver 18 thousand volts under load because one transformer acted like a short while the other applied 8 thousand Volts to the load. The problem is the internal writing I can’t change sealed in tar. The motor moved but at 8 thousand volt potential. I got better results with my 10 thousand volt transformer. To get past 10 thousand volts I have to build a transformer from scratch or buy one already built. To have a transformer custom made costs a lot of money because of setup and tooling costs for anything not mass produced.
I knew about this upgrade but you needed the more primitive to understand fundamentals.