Pioneering the Applications of Interphasal Resonances http://tech.groups.yahoo.com/group/teslafy/
--- On Mon, 8/10/09, Alexander Hollins <alexander.holl...@gmail.com> wrote: > From: Alexander Hollins <alexander.holl...@gmail.com> > Subject: [Vo]:The Hum Explained! BY SCIENCE! (attn BillB) > To: "vortex-l" <vortex-l@eskimo.com> > Date: Monday, August 10, 2009, 8:40 PM > http://www.wired.com/wiredscience/2009/08/hummingearth/ > > In an upshot, theres a constant roughly 10 millihertz hum > worldwide, > detectable by seisometers, that goes up and down. its > created by... > WAVE ACTION. that is, waves in the ocean. And > its rise and fall and > appearance in different areas inland is caused by storms > and such > moving main masses around. Thought some here might find > that > interesting, in comparison to THE HUM. Hum.. at first I was going to scoff in misbelief, but I see the Url corroborates this claim. Talk about low frequency this is very low indeed. A cycle of a millihz has a period of 1000 seconds, meaning if two opposite polarities as peaks were recorded as in AC, the detecting mechanism would see peaks every 500 seconds, or 8.3 minutes. I hate to think how long a radio antennae would need to be at quarter wavelength to receive such a broadcast, we might be talking planetary distances here. On a more serious note here over the years I have experimented with higher ferromagnetic frequencies above 400 hz and resonated large air core coils using a common AC car alternator driven at a constant rpm from household voltage to a driven AC motor to supply constant rpm to the alternator as that input frequency supply. In my earlier years all of my notes indicate that the input frequency was 480 hz. This frequency again is only dictated by pulley ratios diameters and the driving motor rpm. At that time I was using 80 lb rewound coils of 23 gauge wire, an astounding wire length over 9 miles I suppose, and over 60 Henry. At 480 hz the capacity to resonate was very small, near 2 nf which was simply made as a home made capacitor by using aluminum foil and plexiglass sandwiched between the foils. Many pictures and jpegs exist of these early days. But the thing about these large coil resonances was that when in operation at thousands of volts, the plates themselves I presume emitted a very loud HUM, which I figured to be a high pitched A notewise. Probably a doubled harmonic of the input freq of 480 hz? I also noted that when a transformer instead was employed for the voltage rise, it too seemed to emit this loud high pitched whine, and some old timers on the tesla list also noted that this happens in the early days of radio, and that EM bleeds into the sound spectrum ect. In those days I could even make a pitchure as water fashioned as the needed capacity to resonate and it would also hum, but not as loud, it was a muffled hum from puckered water. Now as the years rolled by all my assets were stolen during incarceration ect,, but I replenished my assets upon release by land sale, and in the reproduction of the principles I am now using 465 hz and 70 lb coils, but now absolutely no hum effects are occuring? I wonder if these devices are very frequency dependent for them to bleed out into the sound spectrum. In other work involving periodic repeating devices I have scoped out my woodpecker antennae device from the magnetic field of its sending coil and found that the neon atop the 25 ft tower blinks every three 60 hz AC cycles on positive peak for a frequency near 10.6 hz. The increase of voltage on these three AC cycles leading up to a neon ignition near 5ms duration can be seen on scopings with a 10 ms/div sweep rate, again a slow sweep rate barely able to capture both high frequency ringdowns within a single sweep. The frequency of the standing wave during the neon ignition is very low, in the 3600 hz range. Presumably this occurs because of the extraordinary long length of 8.6 miles of wound 23 gauge wire on the sending coil. Sincerely HDN
