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13 April 2021. Observations On The Schumann Resonance Harmonics


13 April 2021. Observations On The Schumann Resonance Harmonics

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Daily Reading.

Current conditions:

Amplitude activity is generally calm, with the exception of these clear, synchronous-mode bursts. The peak of 52 was short-lived, in addition to the actual value not being that high, we have relatively low number values in the other mode channels Last few days has generally been a sea-state of calm in amplitude, with these periodic burst of synchronous mode.

Synchronous mode in Amplitude indicates a higher origina of the signal ("incoming" they call it); because it's mode shape is similar across the Amplitude spectrum, and because the amplitude is not matching or "requiting" with it's magnetic counterpart.

Quality is the magnetic, or horizontal reading of the actual Schumann Resonances. The atmospheric "hum" , or "ringing" is the Schumann resonances themselves.

Generally, Quality is alot like watching the ocean; there is a constant activity of the waves bouncing up and down. Some days are more active, and stormier than others. What I am looking for is not the rhythmical "bouncing" of quality, but specific peaks or dips that line-up with amplitude spikes, or activities.

Quality (horizontal frequency) modes of the white, red, green are relatively smooth today, yet yellow has been active. I'd expect to see a very bright green on the spectro, as a result.

More properly, I am looking to see the activity measured in Amplitude, to compare it with Quality, and see how these are interacting with each other, across the 4 Modes.

In the case recently, the usually busy quality is calm today, especially in the White mode

- Frequency peaks and valleys are following the 24-hour diurnal patterns. .

Number values of the Modes, as given at the peak event.

Amplitude spike from 8-13UTC.

Amplitude: A1(white)~52 ; A2(yellow)~19; A3(red)~10.4 ; A4(green)~7.

Quality: Q1(white)~7 (flat) ; Q2(yellow)~8.74(twin peaks) ; Q3(red)~8(weak) ; Q4(green)~10 (flat).

Frequency: F1(white)~7.3 (dip); F2(yellow)~12.9(big dip) ; Q3(red)~19.9 (dip) ; F4(green)~2462(dip).

Amplitude. Measurement of Intensity, or heighth of the signal; which is called the Vertical Conductivity; measured in units of deci-Bels of Pico-electron-Volts. A di-pole type antenna is used to measure Amplitude.

[A "pico-" is -15 decimal places, so these number values technically are in the negative values; because they are such subtle/weak forces.]

Quality. Magnetic flux; which I call the horizontal frequency, which is the wave function of peak-to-peak measurement; as measured in pico=Teslas. The intermagnetic planetary link in measured in nano-Teslas. Induction coils are used to measure Quality.

Frequency. Standard means of measuring wavelengths, in terms of meters, or kilometers in this case. The frequency measurements are of the actual waves themselves, and not the resonant harmonics. The spectrogram shows the horizontal bands, which are the resonant harmonics, of the Schumann-series.

Modes 1-4 . These are the four basic colors [white, yellow, red, green] used to plot the spectrogram, which is a composite of the dependencies, which are above given. Mode is a relatively complex ratio of wave size and shapes, in proportion between the Amplitude and the Quality.

Dark blue (navy) background. The darkest blue of the chart represents the "fair-weather at-rest condition" of the atmosphere. Regularly, the area of the spectrogram between the 33 Hz to 40 Hertz Harmonic (the cap of the chart) is the dark blue. The coloring of the spectrogram is based on the subtraction from dark-blue, into the direction of the reporting depencency, such as white, during clear amplitude bursts.

White mode light. Strong, clear amplitude spikes will peak in the white mode (#1), due to the narrow wave-form that this mode is measuring. The shape of the wave, as a high-charge (positive charge, high voltage) gets plotted as a strong white on the spectrogram. Beneath this, however, is also a supporting yellow, which further emphasizes a white characteristic to the spectrogram report.

Spectrogram. Composite plotting of the above-detailed dependencies, in their modes. Horizontal bands represent the actual Schumann resonances. Resonant harmonics are a series of standing waves, which are caused by emf waves bouncing into one another, to create standing wave patterns, along a spectrum, or range of frequencies. There is not just a frequency, there is also an intensity of the signals. The spectrogram is a "weaving" together of the two directions of electromagnetic signals, as they pass-through the atmosphere.

Harmonics. Frequency waves are peak-to-peak events, which is properly measured as Hertz; cycles-per-second. As the originating frequency waves travel around the planet, interfering with each other, these interferences start to "rarify", or stack-up, into the series of harmonics; which are seen as horizontal bands on the spectrogram at 6.6 Hertz increments, starting at the base of 7.8 resonance frequency.


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Observations on SR Conditions (as measured in Tomsk, Russia)

The measurement of Schumann resonances is not that of wave frequency; but the measurements of a series of harmonics; which begin at 7.8 Hertz; then solidifies again at 14.1; then 20.7; then 27,1; then 33.3 Hertz.

Harmonics are a series of Resonances, which are standing waves, and also consider to be interference patterns. By combining the results of the linear graphs of the 12 channels of the dependencies, into one single plotting, we arrive at the spectrogram. Two types of antenna measure the respective vectors of electrity (amplitude), and of the two axes of magnetics (Quality); along with the relative size of the wavelength in kilometers.

Harmonics are caused from two, or more waves being out of syncronization; which interfere with each other to create a resonance, or harmonic frequency. The spectrogram holographically repreduces the invisible interferences of these atmospheric radio waves.

Amplitude spikes are not resonances, nor are they harmonics, nor are they measured in Hertz, which is cycles per second. Amplitude is the electric-side of the signal, as measured by deci-Bels of electronVolts.

Amplitude (the electrical component) comes top-down, from the ionosphere (at around 200,000 Volts). to the Earth ground.

Amplitude is top-down, meaning it does not "rise" to a frequency. Amplitude does not "reach" up to a frequency. Amplitude lowers down to a reported deciBel power rating, which is pico-electronVolt deciBels of amplitude; amplitude is a charge, measured as +, or -.

Amplitude spikes are not resonances, nor are these harmonic frequencies. Amplitude spikes are jolts of electricity, which come top-down from a much higher voltage than that which is reported by the antenna detector complex.

Quality is the magnetic flux, measured in pico-Teslas; this is current, which is a direction. Amplitude is Intensity, as measured by deci-Bels


Ionosphere acts as a type of mulit-layered membrane that is elastic, which can compress, which will increase harmonics. Lightning is the primary cause of the Schumann-series of resonances. These discharges within the cavity of the AC Circuit is our first, primary source of these Amplitude bursts; releases from high voltage to the Earth-ground circuit.

Synchronous mode means that the input signal from the dependencies of Modes 1-4, are displaying a nearly-identical signal at this spike of Amplitude; which is also called the vertical conductivity channel.

Amplitude is the Vertical frequency, as measured in deci-Bels, specifically in the pico- scale.

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