Morphing Schumann Resonance: Why we don’t sleep well anymore

Morphing Schumann Resonance: Why we don't

sleep well anymore

Morphing Schumann Resonance: Brain Entrainment & Affects on Psychobiology

Schumann resonance frequencies are a spectrum of naturally occurring electromagnetic signals, circulating in the electrically resonant cavity bounded by the Earth and the ionosphere. It is also widely accepted that Schumann resonances cause brain-wave entrainment. Now we present evidence that both mean frequency and average power density of Schumann resonance are rising; and not by just an insignificant value. Schumann resonance has governed the `evolution' or development of the stress-free operation of the principal human brain-wave signals. Those of animals too. It is widely accepted that Schumann's resonance is created by lightening strikes as shown in the image courtesy of WikiPedia. Click image to go to the video. It should be noted that these lightening strikes are giant 1 second or longer discharges of DC electric current that create a very-very long-wave, pulsed signal. When one discusses Schumann at 7.83 Hz, one must be cognizant that Schumann Resonance encompasses an entire range of frequencies from .01 to well over 100 Hz. It is the higher amplitude in the frequency scale below 15 Hz that keep our brain-waves entrained to low stress-free states where adequately sound sleep during the night is possible. As soon as a higher amplitude frequency is introduced, the biological organism will attempt to entrain (tune) itself to this `louder' signal. It is called FFR or the Brain's Frequency Following Response and this is an important concept to keep in mind when reviewing the information below. Traditionally Schumann Resonance was known to include peaks at 7.83, 14.1, 20.3 and higher . According to WikiPedia (wrong) these frequencies are around 7.83 (fundamental),14.3, 20.8, 27.3 and 33.8 Hz. When I designed EarthPulseTM in 2001 we kept our frequency output range below 14.1 Hz that was widely accepted as the 2nd Schumann resonance peak.

1

Science for some unknown reason fails to recognise the peaks in the 1.5 ? 2.5 range; we didn't and include them in our stepping up and down sleep programs. Lets take a close look at two classic representations of the Schumann resonance spectrum.

Schumann Resonance classical Another classical view of

view (not sure what the 30 Hz Schumann Resonance (not sure

spike is).

what the 17 Hz spike is)

In the images above, one can clearly see that but for the spikes at 30 / 17 / 60 Hz, the highest amplitude wave is at 7.8 Hz. The next lower spike should be 14.1 Hz, then 20.3 Hz lower still and so on. More importantly, the aggregate amplitude of what would be Alpha through Delta brain waves, outweigh the aggregate amplitude of what lies above Alpha. Below please find one more classic example. There we see a relatively high amplitude spike at around 1.5 Hz another short spike at around 2.5 Hz, then the predominant peak at 7.8 Hz, a lower spike at 14.1 Hz, next lower at 20 Hz and so on down the line.

2

Another classical view of Schuman Resonance Please notice again in the image above the amplitude of the 60 Hz spike from unshielded power frequency, in such instance the brain would tend to want to "follow" or entrain toward the high amplitude `louder' signal at 60 Hz, while the aggregate amplitudes of the peaks at 1.5, 7.8 and 14.1 and what lies between would counteract that 60 Hz signal and (hopefully) keep the brain tuned lower during the day. Low enough to easily reach sleep states at night. This is why you remember sleeping so much better decades ago before the proliferation of wireless technologies when almost no one had a problem sleeping well and we took good sleep for granted. Modernly we are facing a situation where Trillions of Watts of Microwave energy (which as the name implies is a very-very short wavelength) has been pumped into the Ionosphere and it's boosting mean frequency of Schumann resonance. Not by just a little. When the difference between Delta-wave sleep (1-3 Hz) and Alpha (8 -12 Hz) is just 5 Hz, the change we're seeing in the charts below are catastrophic. In the first chart immediately below you'll see 14.1 Hz higher than 7.83 Hz but 20.3 26.4 and 32.4 all lower than 7.83 and progressively less amplitude as you go higher up the frequency scale.

3

Warning bells should go off in the reader's mind when you see the two presumably more recent images below. Morphing Schumann Resonance

Source: Lonetree Data recordings 2010; note the amplitude of 26Hz is higher than 14 Hz! and 33 Hz is higher than 7.8 Hz!!

4

 ................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download