Electric atmosphere
Our Sky & Earth Anomalies channel has focused on observing the various comings and goings of storms, lightning, weather bomb warnings, manned/possibly unmanned civilian planes and military flights. We occasionally get a boat thrown in. We have hunted for patterns that would allow us to predict air quality and manufactured weather patterns, and forecast to some degree whether they were going to be tough on our constitutions. We are finding that we have all been quite literally ‘under the weather’ for many years.
It seems that, where there is trouble in the form of a flu, other illness with epidemic/seasonal appearance, flooding and wild weather, lightning is frequently in the mix. It also appears its effects can be carried quite far afield by storm systems, wind and upper atmosphere.
Lightning is an electromagnetic phenomenon. Everything on our planet, including the breathable part of the atmosphere, contains atoms, all of which have an electromagnetic relationship to each other. The way all these atoms interact with each other is dictated by the different composition of the atoms and relative forces. You can find more about this in this article we wrote earlier.
Balancing energy
The earth is surrounded by an electromagnetic field, within which fluctuations occur. These fluctuations in frequency and intensity of the electromagnetic field can be seen on the Schumann Resonance. The SR is the measurement of frequency and intensity in the ionosphere, which extends from approximately 50km to 1000km from the earth’s surface. The resonance in the ionosphere sits at a very low frequency of around 7-8hz. Changes in the readings for the SR therefore would indicated changes in the ionosphere. This section of our atmosphere is in effect a plasma cloud of positively charged ions or photons, created by the sun’s shortwave nuclear fusion radiation emissions in the form of infrared and ultraviolet radiation. Within the atmosphere we see a constant interchange of energy. Primary energy emissions come from the sun, some from the earth itself and the moon. Here is a summary of the sun influences our atmosphere according to physicists. These hypotheses are formulated by comparing nuclear fusion experiments at places such as CERN, to the activity seen on and around the sun, studied using sophisticated observatory radiotelescopes and other instruments.
Planetary magnetism
It is generally accepted by science that the Sun emits a positive charge – hence the positively charged ionosophere. The charge of the earth depends on the structure of the earth’s surface and substrata, but the earth is also accepted to carry a largely positive charge, though much weaker than the Sun. Scientists believe the inside of the earth behaves as a sort of magnetic dynamo, with molten iron and nickel. It rotates creating a sort of inner molten sea core.
The effect of this dynamo, together with the different geological structures of the surface layers of the earth, mean some areas will have a more negative charge, others a more positive charge than the normal magnetism of the earth. It also means that currently one would expect the positive end of this dynamo to be settled on or near the magnetic north pole.
Many areas with high incidence of magnetic anomalies are rich in iron ore and other metals that lend themselves to magnetisation. Magnetisation of these geologies particularly over land, are largely ancient in origin. New areas can occur according to atmospheric, sea conditions and geological conditions, particularly at junctures of tectonic plates, in response to movement and composition. On the Geomag mapping website you can download the full earth image, showing the distribution of magnetic anomalies, and on the north and south poles. If you prefer a flat earth scenario, the central pole and outer boundary.
Atmospheric anomalies
The magnetic field around the earth allows our atmosphere to form. Geomagnetism of the earth apparently stretches up to 95,000 km out to space. Our atmosphere is made up of five layers. In the trophosphere (<13km) the first few km are breathable air, oxygen becoming increasingly more rarified higher up. The stratosphere (13-50km) is incredibly dry with only 6ppm of water vapour compared to around 100ppm at sea level. Planes and high altitude balloons fly in this band of the atmosphere and Hydrochloric acid, hydrofluoric acid and sulphur dioxide (converted to sulphuric acid (H2SO4)) from volcanic eruptions are found in this band. H2SO4 is interestingly ‘one of the compounds responsible for cloud formation. The particles emitted include silicates and sulphates and these absorb sunlight in the stratosphere’.
In addition Ozone, created from 3 oxygen molecules fusing together, collects in this band. This acts as a protective layer from the Sun’s radiation. A comparison is made of the potential effects on the ozone layer, of sulphuric acid or calcite use in stratospheric aerosol injection, to mitigate climate change. We will talk more about the scientific reasoning behind this in the next article.
The tiny quantity of water vapour found in the stratosphere, is in direct contrast with the claim that trails we see crossing the sky are only water vapour. I would therefore ask, if the stratosphere only has 6 parts per million of water, where is the water coming from? Either there is more water in the stratosphere than first thought, or the planes are not emitting water vapour through the combustion process of the fuel required to fly the plane. Instead they are emitting particulates that attract water, whether that be H2SO4 as above, aluminium, silver iodide/oxide or other hydrophilic metal elements/compounds. In this paper abstract, it appears elements are not only useful for drawing water vapour to them, either to create rain or cloud cover, but others can be used to capture other gases/elements in gas form. Gaseous radioactive Iodine 131 can be captured by different oxides including silver oxides. We already spoke about the discovery of Iodine 131 in a radioactive cloud over Europe towards the end of 2017, beginning 2018. Of course again this incident was blamed on Russia and their supposedly leaky nuclear facilities. The explosion at the Chernobyl site, and the recent capture of Ukrainian facilities, makes one wonder if that is a deflection.
The very real possible explanation for the formation of clouds in the wake of trails, is the mopping up of accidents or even deliberate release of particles for nefarious purposes. We will look in more detail at the mechanisms of various elements in a later article, but in summary we believe there are a wide variety of elements that can be used to create cloud cover, rain clouds and storm clouds which include lightning. There is a distinct visible difference and sometimes a marked smell of engineered clouds when compared with naturally occurring ones. Here is some more information on real clouds and what their roles are, including the heights they usually form at.
North and South Poles
Looking in more detail at the earth’s geomagnetic anomalies, we see a high concentration of strong magnetism in the northern hemisphere, particularly towards the polar region. Russia, Eastern Europe, Scandinavia, North America and Canada are all quite densely covered in anomaly. We also see distinctive bands and wave type structures over the oceans, like ripples in the water, or in the earth’s crust at plate boundaries.