We notice a seeming anomaly. A sudden drop of Intensity (loudness, or dBs), as measured in the amplitude dependency @ 1830.
Was this something local to Tomsk, or the machine itself?
We always consult the dependencies to see what happened:
There's a drop in both Amplitude and Quality. The is the electric-side, and the magnetic side both. These are represented by the two axes: vertical and horizontal.
The spectrogram is the top image, followed by Amplitude, Quality, Frequency. Amplitude is the electric-side, as measured in the pico deci-bel range. Pico is 12-15 decimal points below a Zero threshhold, or "floor" as the call it. So when you are looking at the power number, you need to remember that in actual, real world terms, that power number is a NEGATIVE VALUE.
So, what this means is that at the moment where it experienced the drop-out, I'll call this, it was at 6.14 according to the dependency report. Then, it dropped to 3.26 pico-deci-bels. This is properly read: 0.000,000,000,326 deci-bels of Amplitude.
Some (semi-)Basic Refreshers:
Nano is the scale used to measure the Interplanetary magnetic field [IMF], as well as the telluric currents of the planet herself.
The IMF is what I refer-to as the "Upper DC Circuit." This is the Magnetosphere/Ionosphere combination; which holds a residual charge of ~200,000 volts. This is measured in the nano- scale.
The "Lower DC Circuit" is the Earth's planetary magnetic grid. These are a series of telluric currents around the globe. This is measured in the nano- scale.
Nano is 9 decimal points below our theoretical zero deci-Bel threshhold.
Micro- is 6 decimal points below our theoretical zero-deci-Bel point.
Computer technology, internally, runs on micro-voltage. Cell phones are using micro-voltages, and micro-amperes. We are surrounded by plug-in technologies, orders of magnitude more powerful than both the Telluric currents of the planet; and more so with the Schumann resonances, which are, again, measured in the pico-scale, which is, indeed, quite small.
The spectrogram is not showing you the image of the actual signal of the environment. What it is showing you is a composite view, using 4 colours: Green, Red, Yellow, White; with Dark Blue being the residental colour of the scope itself.
The residential color of the spectrogram is Dark blue-almost black. This represents the theoretical at-rest state of the atmosphere, as determined by statistics. There is a computational algorith, or "AI brain" behind the computations of the coloring of the spectrogram.
The spectrogram is not what's plugged directly into the atmosphere; that's the antenna hardware itself.
The spectrogram is an domestic electronics device, at it's core. It's built to be operated without human intervention, largely. There's not really an easy nor simply place that a person can interject themselves into the equation, once it's been set-up and operating properly. There are actually articles (@vlf.it) on "autonomous operations" of the detecting hardware.
It's important to understand that there is a data collection cycle of 20 minutes, perhaps 18, where the local storage of the machine's memory holds, then it needs to purge. There's a short interval of data release, before the cycle repeats.
Schumann resonances oscillate, or vibrate in-situ, meaning in place, in the atmosphere.
_
Patreon public link: ( https://www.patreon.com/posts/61793484 )
We notice a seeming anomaly. A sudden drop of Intensity (loudness, or dBs), as measured in the amplitude dependency @ 1830.
Was this something local to Tomsk, or the machine itself?
We always consult the dependencies to see what happened:
There's a drop in both Amplitude and Quality. The is the electric-side, and the magnetic side both. These are represented by the two axes: vertical and horizontal.
The spectrogram is the top image, followed by Amplitude, Quality, Frequency. Amplitude is the electric-side, as measured in the pico deci-bel range. Pico is 12-15 decimal points below a Zero threshhold, or "floor" as the call it. So when you are looking at the power number, you need to remember that in actual, real world terms, that power number is a NEGATIVE VALUE.
So, what this means is that at the moment where it experienced the drop-out, I'll call this, it was at 6.14 according to the dependency report. Then, it dropped to 3.26 pico-deci-bels. This is properly read: 0.000,000,000,326 deci-bels of Amplitude.
Some (semi-)Basic Refreshers:
Nano is the scale used to measure the Interplanetary magnetic field [IMF], as well as the telluric currents of the planet herself.
The IMF is what I refer-to as the "Upper DC Circuit." This is the Magnetosphere/Ionosphere combination; which holds a residual charge of ~200,000 volts. This is measured in the nano- scale.
The "Lower DC Circuit" is the Earth's planetary magnetic grid. These are a series of telluric currents around the globe. This is measured in the nano- scale.
Nano is 9 decimal points below our theoretical zero deci-Bel threshhold.
Micro- is 6 decimal points below our theoretical zero-deci-Bel point.
Computer technology, internally, runs on micro-voltage. Cell phones are using micro-voltages, and micro-amperes. We are surrounded by plug-in technologies, orders of magnitude more powerful than both the Telluric currents of the planet; and more so with the Schumann resonances, which are, again, measured in the pico-scale, which is, indeed, quite small.
The spectrogram is not showing you the image of the actual signal of the environment. What it is showing you is a composite view, using 4 colours: Green, Red, Yellow, White; with Dark Blue being the residental colour of the scope itself.
The residential color of the spectrogram is Dark blue-almost black. This represents the theoretical at-rest state of the atmosphere, as determined by statistics. There is a computational algorith, or "AI brain" behind the computations of the coloring of the spectrogram.
The spectrogram is not what's plugged directly into the atmosphere; that's the antenna hardware itself.
The spectrogram is an domestic electronics device, at it's core. It's built to be operated without human intervention, largely. There's not really an easy nor simply place that a person can interject themselves into the equation, once it's been set-up and operating properly. There are actually articles (@vlf.it) on "autonomous operations" of the detecting hardware.
It's important to understand that there is a data collection cycle of 20 minutes, perhaps 18, where the local storage of the machine's memory holds, then it needs to purge. There's a short interval of data release, before the cycle repeats.
Schumann resonances oscillate, or vibrate in-situ, meaning in place, in the atmosphere.
_
Patreon public link: ( https://www.patreon.com/posts/61793484 )
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