by Joseph P. Farrell, Giza Death Star:
If you think things are getting hot here on planet Earth, then you need to take a trip to Alpha Centauri, our nearest stellar neighbor in the galaxy, because if you do, you’re going to run into, quite literally, a ring of fire (and yes, I do have the famous Johnny Cash hit running through my mind as I compose this blog, because this story reminds me of the song, and the song’s lyrics could be the words of the Voyager spacecraft, if it could talk [and sing]).
The story was shared by T.M.(thank you!), and has me speculating in all sorts of wild, weird, and wacky ways, as is my wont:
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NASA’s Voyager Spacecraft Found A 30,000-50,000 Kelvin “Wall” At The Edge Of Our Solar System
Here’s the crucial point of the story (and in case you’re wondering how hot 30,000-50,000 degrees Kelvin is, the article answers that in its first paragraph):
In 1977, NASA launched the Voyager probes to study the Solar System’s edge, and the interstellar medium between the stars. One by one, they both hit the “wall of fire” at the boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it.
That will definitely cook your bacon and bake your noodle.
There are a few ways you could define the edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun’s gravitational influence where objects may still return closer to the Sun. One way is to define it as the edge of the Sun’s magnetic field, where it pushes up against the interstellar medium, known as the heliopause.
“The Sun sends out a constant flow of charged particles called the solar wind, which ultimately travels past all the planets to some three times the distance to Pluto before being impeded by the interstellar medium,” NASA explains. “This forms a giant bubble around the Sun and its planets, known as the heliosphere.”
It is beyond that where the heliopause lies.
…
While not a hard edge, or a “wall” as it has sometimes been called, here both spacecraft measured temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit), which is why it is sometimes also referred to as a “wall of fire“. The craft survived the wall as, though the particles they measured were extremely energetic, the chances of collision in this particle-sparse region of space are so low that not enough heat could be transferred to the duo.
The Voyager spacecraft continue to send us data from beyond this “wall”, the only two probes that have crossed it so far, nearly 50 years after they were launched. Together they have found several surprises on our first glimpse outside the Solar System.
“An observation by Voyager 2’s magnetic field instrument confirms a surprising result from Voyager 1: The magnetic field in the region just beyond the heliopause is parallel to the magnetic field inside the heliosphere,” NASA explained, shortly after one such surprise.
All of this may seem to be the sparsest material for a bit of daily high-octane speculation, but I submit – with my usual Wile E. Coyote confidence and elan that my current light bulb of inspiration is not a quick trip to the canyon floor – that it probably gives a great deal of confirmation to two rather “fringe” hypotheses: (1) the electric universe theory, and (2) the plasma-life hypothesis. The implications of the “wall of fire” heliopause are clear enough: the solar system is not an electromagnetically closed system; it impinges upon, acts upon, and reacts, with electromagnetic sources outside the system. Those interactions will affect events in this system decades into its future. And at a deeper level, those interactions of particles at the heliopause are looking very much like plasmas. One may safely assume that such zones exist around every stellar system, and hence, that the stellar neighborhood is a vast interconnected network of plasma filaments and membranes, membranes that make each stellar system – vast though they be – a self-contained cell in a sea of such cells.
Perhaps, too, we are looking at yet another version of the “quarantine zone”, not at the orbit of the Moon, or of Saturn, but at the edge of our own system. It raises disturbing and nihilistic possibilities, for if, indeed, mankind is perhaps capable of “tickling the Sun” via magnetic resonance and with some of his sophisticated toys that beam gigawatts of power into the ionosphere, or that slam particles together inside of magnetic fields several times the intensity of that of the entire planet, the Sun, in its turn, could then “tickle” that heliopause, and perhaps other stars with which it is coupled. They will tell us, of course, that such things are highly unlikely, and even if they were, the results would probably be barely detectable.
Originally Posted at https://www.sgtreport.com