Schumann Resonance Today – Update from July 2 ~ posted July 3, 2018

Schumann Resonance Today 7/2/2018 We will try to keep you updated about the variations of the Resonance with this page. The great variations that nobody can explain but that give us a clear sign that the planet is changing. The Earth is vibration higher and higher, just like us! RS Base Frequency 7.83 Hz. Schumann Resonance Today Peaks:

• A day of moderate activity, the significant part has been from 10:00 to 15:00 UTc where we can see an increase that topped above 32 Hz from 12:00 to 13:00 UTC.
• The Italian chart from the vlf.it website shows a more powerful activity that went above 40 Hz from 17:00 UTC and it’s apparently ongoing.
• As suggested we arranged the images in an Archive page where all of them are arranged in chronological order for and easier consultation, you can find the link in the banner below.

The Chart time is based on Tomsk – Russia – UTC +7 Source

Note

The Ancient Indian Rishis called 7.83 Hz the frequency of OM. It also happens to be Mother Earth’s natural heartbeat rhythm

Schuman resonances are named after professor Schumann who was involved in early German secret space program and was later paperclipped into the United States. The frequencies of Schumann resonances are fairly stable and are mainly defined by the physical size of the ionospheric cavity.

The amplitude of Schumann resonances does change and is bigger when ionospheric plasma gets excited. Ionospheric plasma excitation happens because of solar activity, thunderstorms, use of scalar plasma weapons and HAARP and lately also when the Light forces are clearing the plasma anomaly.

Meteor Detection

When a meteor strikes Earth’s atmosphere it decelerates rapidly. The friction created by the air causes the meteor to burn up at extremely high temperatures creating the white “shooting star” that we are all familiar with. This process also ionises the atmosphere along the trail making it possible to reflect radio waves.

Utilising a high powered VHF radar signal sent into the sky, we are able to detect reflected waves from these ionisation trails. Because the meteor is moving very fast, the reflected signal is shifted in frequency, by an amount according to it’s speed. This Doppler shift is also heard as an audible ping by the station operator.

Our system translates the reflected wave into three main parameters – Amplitude (strength), Frequency shift (Doppler shift) and decay time. This allows us to determine the relative size of the meteor strike (vertical scale) and the relative approximate speed and deceleration (width of the trace).

You can see the output from our system above in real time. the graph shows the presceding one minute period. During a meteor shower this trace will be full of meteor strike traces, but it is also surprising how many meteors are striking Earth’s atmosphere all of the time.

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