Gmxxnet Article Submission
Electronics Deactiviation
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PseudoScientist © 2002, 2007, 2009
The following episode is a true description of magnetic reactors built and test results obtained from using these reactors within the authors's test areas.
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"Pseudoscientist" Page 23.
Electronics Deactivation
March, 1997
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Electronics Deactivation: March 1997
Johhn reconfigured magnetic pole assemblies within two nubbin reactor devices and changed inductance coupling to the peripheral coil assembly. The flux characteristics within these new devices changed the peripheral flux configuration, but these two reactor devices still repulsed each other. These new reactor device assemblies were designated as “nuon” flux generators to differentiate them from previous nubbin flux generator design.
A Type II magnetic reactor was fabricated with two nuon devices secured one above the other. The internal modifications increased the weight of each nuon device, and there was minimal air spacing gap between them. A repulsive sliding force was created between the two stacked devices which required tape restraint to keep the reactor device in a stable position.
Johhn muttered, “What the hell, folks. Here we go again”, as this dual nuon device was tested for radiation output. Previous test results with plasma surface arcing and magnetic fluctuation were no longer observed. Surface energy interactions may have changed and confined fluxon particle interaction within the center magunit reaction zone.
A 132 MHz signal was chosen as the reference frequency for radiation testing using this dual nuon reactor device. Pulse modulation at 132 MHz generated wave packet noise signals. The noise signals had maximum intensity along a directed line of radiation, and this directed beam of radiation was position oriented relative to the reactor structure. The directed radiation was pointed east through the living room window toward a small private airport and the holding pattern areas for the Columbus airport air traffic control.
Johhn had previously purchased several small scanner radios, and he now programmed one radio to scan the aviation frequency band. Nothing unusual was detected when the radio was positioned around the reactor assembly beyond the directed beam region. When the scanner radio was positioned 10 foot from the reactor device within this directed radiation beam, the scan function detected loud noise spurts across the aviation frequency band.
The scanner radio was positioned 5 foot from the reactor device within the directed radiation beam. Several loud noise spurts were heard, and then the scanner radio became silent. Manual rotation of the tuning knob produced no sound. The plastic chassis remained cool to the touch with no evidence of external damage to the chassis material.
Johhn repeated the test with a second scanner radio positioned 10 foot from the reactor device within the directed radiation beam. Loud noise bursts were generated when the radio scanned through the aviation broadcast frequencies. The scanner radio was then positioned 5 foot from the reactor device within the directed radiation beam. The scan function generated three loud noise bursts before the radio became silent. Manual rotation of the tuning knob produced no further sound from the radio circuitry.
There was no visible damage to the circuitry of the first scanner radio. The radio just stopped functioning electronically. Johhn was amazed by the damage to the circuit boards within the second scanner radio. Capacitor and inductive elements were completely melted, and circuit board channels had peeled from the board surface. The interior walls of the radio chassis had surface erosion and were covered with tiny specks of melted solder.
Johhn then tried to analyze the radiation within the directed radiation beam. He positioned a small detector coil within the directed radiation beam, and the coil output was connected to an oscilloscope. Complex pulse waveforms, confined within a 36 Hz modulation envelope, were detected on the oscilloscope screen. No pulse waveforms were visible when the detector coil was moved near the magunit periphery away from the directed beam radiation.
Johhn did not turn off the frequency generator during the night. and he resumed analysis the next morning. Several scanner radios were positioned within the directed beam 3-10 foot from the reactor device. The scan function generated discontinuous noise signals across the aviation band with no damage to the radio assembly.
There were no noise spurts similar to the results obtained the previous day, and there was no obvious malfunction or damage to the scanner radio assembly. Johhn placed the scanner radio at several positions around the periphery of this dual nuon reactor, but no radiation damage was produced within the scanner radio chassis. Johhn moaned, “Come on, damn it. What the hell is going on here?” Further attempts to create new circuit board malfunction with different scanner radio positions gave no positive results.
Johhn contacted a small test laboratory to run analysis on the scanner radio malfunctions. He gave them the two damaged scanner radios and requested electronic function analysis of the circuit boards components. He requested electron microscope analysis of damaged areas and spectroscopic analysis of the melted residue. These tests could be completed with their regular laboratory equipment, and test results were promised within the next few days.
The morning news coverage described an immense fire within the test laboratory that Johhn had delivered the radios for radiation damage analysis. The fire had broken out within wiring adjacent to chemical storage areas, and the entire building, and all contents stored within the building, were destroyed. As Johhn drove by the fire damaged premises, he loudly muttered to himself, “The gods are really out to get me.”
Jeane was quite upset, “Johhn, what the hell is happening? Every time you get a valid piece of magnetic radiation evidence, it just disappears into thin air or just burns up in a big fire. Shall we enter the realm of Star Trek intervention with dimensional phase transformations, or did the military actually burn down that building just to destroy evidence?
Hermes interjected, “What is this vorticomagnetic crap? You concocted an obtuse name from miniscule data correlation. ‘Vorticomagnetic’ is enough to scare away even the most intrepid investigator who might have some interest in your work.” Hermes vented his frustration with a loud voice. Jeane replied, “Johhn, the wording is rather bad…”
Johhn was in no mood to discuss these opinions, but they cajoled him incessantly until he did reply in a controlled tone. “Look, you guys, the assumption that we are being observed by the military or some secret organization is just plain paranoid and is suggestive of mental health problems. Look at me! … I’m talking to you guys… and getting nothing in return…”
“Will you just look at the facts, such as they are, ” Jeane replied. “You generated obscure test results which disappear in obscure situations. The scientists would laugh at your inconsistent test data. They would quote again and again that reproducibility is the heart of their scientific methodology. They would say that your test results are just chance occurrences with no valid reason for subsequent investigation… Scientists have no use for any test results which do not follow the reproducibility regimen of scientific method procedures.”
Johhn acknowledged that the title “vorticomagnetic” was pretentious, but he maintained that magnetic radiation was discrete and unusual. “We really should share the magnetic radiation test results with the scientific and engineering community. But any interpersonal skills which I may have are badly developed and are tempered with fear of someone stealing our ideas. So we do nothing.. Someday we are going to read about some college professor who discovered magnetic radiation in a university that never heard of us or our investigations in this area..”
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