More Quakes and shakes

Debi

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https://www.disclose.tv/earth-is-br...kes-within-48-hours-haarp-plasma-bombs-344076

Earth "is breaking up": Over 20 powerful quakes within 48 hours - HAARP plasma bombs?

Two major quakes have occurred along the Pacific Ring of Fire in recent days: once again on the island of Lombok, also near a Fiji island with a magnitude of 8.2, and this morning a 6.4 near Alaska.

The Earth's crust seems to be in a state of flux at the moment. Especially the geologically very active Pacific Ring of Fire, which extends from Antarctica south of New Zealand via Papua, Indonesia, the Philippines, Taiwan, Japan, the Kuriles, the Aleutian Islands and then back to Antarctica on the west coast of the American double continent, is currently extremely active. It is also home to a total of 452 active volcanoes - around three-quarters of all volcanoes in the world.

And considering that about 90 per cent of all earthquakes in the world take place along this ring, one can assume that there will also be a violent bang here.

It is not uncommon that there are (also stronger) earthquakes along this ring of fire again and again, but there has not been such a large number as on Sunday for a long time.

To get a feel for how strong such a (as the USGS calls it) "deep" earthquake is: In 2013, such a deep earthquake with a magnitude of 8.3 occurred near the Russian east coast and was felt all over Asia.

Now one can imagine what effects such an earthquake can have closer to the surface and then also in a densely populated area. As a further comparison: The devastating earthquake on the Indonesian island of Lombok with a magnitude of 6.9, which killed more than 430 people, on the other hand, was a small swing.

One could argue that the increase in the frequency and intensity of earthquakes and volcanic eruptions is at least partly a consequence of the processes of slowing down and breaking up:

1. The slight reduction of the earth's rotational speed exerts mechanical stress on the crust (compression at lower latitudes and extension forces at higher latitudes). This load deforms the crust.

This deformation is more pronounced at the weakest parts of the crust and can even lead to cracks: Thus at the fault lines (boundaries between tectonic plates), which typically represent the areas where seismic and volcanic activities take place.

2. The mantle has a higher density than the crust and therefore also a higher momentum (momentum). For this reason, the coat cannot slow down as fast as the crust. These differences between the rotation of the crust and the mantle are called crustal slippage. The fluidity of the mantle allows slippage induced by the different curvature of the crust, the upper mantle and the core.



The strongest earthquake - with a magnitude of 8.2 - occurred in the Pacific Ocean, near the islands of Fiji and Tonga. The fact that this did not have any devastating effects and did not cause a tsunami was due to the fact that it took place too deep under the sea and that the area is only sparsely populated.

This speed difference can cause friction and tension in the border area between the crust and the shell. This tension can then locally deform the crust and trigger earthquakes and eruptions.

A change in the Earth's rotational speed would cause changes in magma currents, adapted to the new equator and the new rotational speed. Such changes would probably not trigger a uniform change everywhere, however, because of the'resistance' factor deep in the magma, although[this change] would certainly exert terrible burdens on the lithosphere.

3. The reduction of the electric field of the earth (surface core) reduces the binding force and loosens the tectonic plates relative to each other. The plates can then move more freely relative to each other. This relative movement (divergence, convergence or displacement) is one of the main causes of earthquakes and volcanic eruptions.

4. A final factor that plays a role in earthquakes and volcanic eruptions is electromagnetism:

Some scientists have become aware of the connection between sunspots and earthquakes and want to use sunspot data to predict earthquakes. According to theory, an intensification of the magnetic field can cause changes in the geosphere (i.e. the crust).

NASA and the European Geosciences Union have already given this theory their approval stamp: The theory] suggests that certain changes in the sun-earth environment affect the Earth's magnetic field, which in turn can cause earthquakes in areas susceptible to them. It's not clear how such a trigger could work." (Natural disasters such as earthquakes will increase in 2018 because the equator has shrunk).

In fact, "strange" earthquake precursors have been recorded for decades: Low-frequency electromagnetic emissions, anomalies in the magnetic field, earthquake lights in and around mountain ranges and peaks, temperature anomalies over large areas, which can be seen on satellite images and changes in the plasma density of the ionosphere (HAARP project responsible?).

In order to improve radio communications in the country, the US Air Force intends to detonate ion bombs in the upper layers of the atmosphere, as the trade journal "New Scientist" reported as early as 2016.

Radio signals can, therefore, be received at night over longer distances than during the day: As the density of charged particles in the ionosphere increases at night, the signals can be better reflected.

The United States is already manipulating the ionosphere: As part of the HAARP program, this layer is bombarded with radiation from Alaska by antennas, resulting in plasma in the ionosphere, which better reflects the radio waves.

The US Air Force now wants to have an even stronger impact on the ionosphere: With the so-called "CubeSat". These are mini-satellites that take the ionized air directly to the sky.

This not only increases the range of radio signals but also reduces the harmful impact of solar winds on GPS and interferes with connections between enemy satellites.

So far, however, two problems stand in the way of the project: How does a plasma generator fit into a 10-centimetre cube? And how should the plasma scattering be calculated?

Two research teams commissioned by the Air Force are now to find ways out of this impasse. One possibility is to heat metal until it evaporates so that the metal vapours react with the oxygen in the atmosphere. The alternative: generate the metal vapours by mini-bombs. During the reaction with atmospheric oxygen, the necessary plasma is produced.

The fear of such a mega-earthquake is currently going around. In densely populated areas, in particular, this could kill tens of thousands of people and cause damage in the tens of billions.
 
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