One of the few things that annoyed me about moving from the Midwestern United States to the drier climate of the Inland Northwest was the tendency to experience the shock of static electricity. Sometimes, it actually hurt. Sliding out of the car resulted in an instant shock when I touched the metal of the car door. If I tried to be careful and just touched the glass of the window, that didn’t help much because when I touched the doorknob of the commercial establishment I was entering at the time, I got it then. I discovered that the action caused my body to become a capacitor and my shoes were not allowing my feet to ground when exiting the vehicle; so I was able to mitigate the charge if I discharged myself before touching something metal.
If you look at power lines overhead, you will notice that they traverse in pairs. That is because one of the wires is supplying the voltage to your house and the other is carrying the power to the next substation. Grounding occurs at the power pole.
You will also notice that the power lines are bare wires. Birds rest on them all the time without being harmed. That is because they are not producing a ground or “short” in the circuit. But like a bug zapper, if they manage to touch both wires at the same time, or somehow come in contact with a tree branch while sitting on the wire, they will be electrocuted. If the lines fall and touch the ground in a storm, you must stay away from them because they will kill you. Robert Felix relates the observations of linemen when repairing downed power lines: they have seen the electrical current turn asphalt into glass. Voltage has amazing and destructive power.
Electricity works on the principle of polarity: there is a positive charge and a negative charge. It works closely with the phenomenon of magnetism, which also works on the principle of polarity. In fact, if you open up an electric motor and look inside, you will discover that it’s just spinning magnets wrapped in a copper coil.
Since the discovery of the “lodestone” by the Vikings, mankind has known that Earth has a magnetic field. We can find true north because the lodestone compass will always point that direction no matter where you are on land or at sea.
However, only within the last century have we learned that the magnetic field has electrical zones with two primary belts (and sometimes a third transient belt) enveloping the entire planet called the Van Allen Belts – named after the famous Iowa-grown physicist, James Van Allen, who was the first scientist to describe and map them. The belts represent invisible lines of captured solar and cosmic radiation that carry an electrical charge. They are very dangerous, in fact, so dangerous that NASA has complained that they are not sure about how to get past them. The Space Shuttle had an incident a few years ago with a major electrical jolt when they foolishly let out a tether to tap the power of the electrical field. They sure did! It caused an explosion and they had to come home early.
I’m not sure how to interpret NASA scientists: are they being duplicitous or are they just plain dumb? One of our Apollo astronauts was asked some years ago how we got past the Van Allen Belts to get to the Moon. He started to explain that they know how to find the “holes” in the Van Allen Belts to get through them, then he stopped in mid-sentence, as if he wasn’t supposed to be telling us about “the holes.” He changed the subject. The Soviets wondered how we did it, too. Because, every time they tried, their cosmonauts came back like fried chicken. Maybe, it’s a state secret, but perhaps a too well-kept secret that a even a new generation of NASA scientists don’t seem to know it, either.
[By the way, the Space Shuttle operates in low-earth orbit, below the magnetosphere. Since the Apollo missions, no manned space flight has been attempted to pass through the Van Allen Belts.]
Robert Felix spent much time in his books describing the nuclear potential of the Van Allen Belts. Like the sparks generated by shorting power lines, imagine those results at a nuclear level should the belts be pressed together too close to the Earth. This could occur because of a solar storm, but it would have to be a really big solar storm. Nevertheless, like the subtitle of his first book reads, “Discover What Killed the Dinosaurs and Why it Could Soon Kill Us.” The dinosaurs died from electrocution:
A fluctuating magnetic field can produce an electric current. If a man-made dynamo can produce an electric current, doesn’t it seem that a fluctuating magnetic field as big as the earth itself might produce a planetary-sized current, sending billions of volts of electricity surging through the soil? . . . Now we know why those brontosaurs’ tails were twisted and contorted over their backs as if they died in agony. They did die in agony . . . by electrocution.
Not by Fire, but by Ice, Felix, p. 100
This is a different problem than the penetration of solar or galactic radiation from a weakening magnetic field. We are talking about electrical currents, and if you want an analysis by a competent scientist instead of my observations, I suggest that you read James McCanney’s books, especially his Principia Meteorologia: The Physics of Sun-Earth Weather. You will learn why Tesla Towers are too dangerous for practical application. Opening a hole in the magnetosphere – like they are doing in weather modification – is like punching a hole in a dam. Do it enough times and cracks begin to form, or do it at the wrong time, like when there is a major solar storm, or if everybody else is doing it – like the Russians, the Chinese, the Americans, etc., “all together now” in one lovely resonance – it’s an invitation to disaster at a global scale.
However, the weakening field is not reducing the electrical potential; it is weakening in its organization as a protective shield. That is why whales are beaching themselves; that is why flocks of birds mysteriously fall from the sky. Either their brains are getting scrambled, or they are encountering regions of the Earth – in the sky or at sea – where electrical currents are killing them: not necessarily frying them, but producing systems failure in their vital organs.
When the nova happens, for a short time, we will not have the protection of the magnetic field while it reverses, but when it reverses, it will recharge to its maximum strength, perhaps at a level that humans have never experienced. The air itself will become electrically charged. So will the ground. I speculate that the legends of “flying carpets” and the various ancient myths of human levitation – as in the Ascension of Christ – come from the suspension of gravity from this electro-magnetic charge. If these charges find a way to ground themselves, they will fry you if you are a link in the circuit. If they cannot find a way to ground themselves, the energy will try to dissipate in heat, fire, or explosion: think “spontaneous human combustion.”
This is another frightening potential outcome after the reversal. You have miraculously survived the first 24 hours and you step outside of your survival pod for a quick peek at the world: zap!!! . . . as soon as your foot touches the ground.
In past issues, I have described the value of protecting and preserving electronic equipment for future use after the nova and polar reversal. I am not sure how long it will be afterwards before it will be safe to use those devices. I am talking about things like sonar and radar capabilities and the use of electric motors to operate and navigate an amphibious survival vehicle – or even a submarine. How do you operate – and also protect at the same time – electronic devices inside what essentially will be the vortex of a continuing electrical storm? Think the “Red Spot” of Jupiter. Think the electrically charged atmosphere inside a tornado, then amplify it at a 1000%. This is a problem, so far, without a solution.
Tell me if you can understand this statement:
Galactic nuclei undergoing fusion also produce fusion capacitors so everything moving within this non-uniform electric field also is affected just as comets discharge the solar capacitor. This means our sun is [a] “comet” relative to the plasma field of the galactic nucleus and its stellar fusion capacitor. . .
Principia Meteorologia, James McCanney, self-published, second printing, 2004, p. 89
If I understand this statement correctly, the Sun can nova irrespective of a “dust” cloud or gravitational force. When the solar system, as it’s orbiting the galactic center of the Milky Way, enters a galactic “return current sheet” of the same charge, like two magnets repelling each other and then reuniting when the polarities have been corrected, the nova represents the process for the Sun, the planets of the solar system, and their moons to correct polarity in sync with the “galactic nucleus.” While we can clinically describe the process in scientific terms, the process is violent and destructive. . .
And we can’t get out of the way!
— JWS, February 13, 2022
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