Weird Physics: The Closer You Get to the Sun, the Cooler It Gets
Some of you might believe in Soul Travel and others might not. However, when I first became proficient at soul travel (bi-location) around age 20 to 22 I went into the sun in my soul body. Now logic might tell us that we would burn up in the sun which is true. We would also burn up on Venus or Mercury too. However, if you are in a soul body traveling you don't burn up. So, when I went into the sun in my soul body for the first time it felt a lot like a warm hot tub and was pleasant. Breathing was not a problem because my physical body was still here on earth. Through the sun I was sent to the core of the galaxy somehow because suns are a portal a transportation device for this. So, then I was in the center of the Galaxy looking at the black hole that keeps this and all galaxies together. (Each Galaxy has a black hole at the center in order to keep the stars and nebula and planets together circling around it). But, the point is that I find it quite interesting that probes have found it gets cooler as you get closer to the sun.
I'm thinking this is a lot like the flame on a gas stove. Where the gas comes up it is not as hot as a little ways up where the gas is lit. So, maybe the sun is a little like the gas flame on a stove? or something like this?
Weird Physics: The Closer You Get to the Sun, the Cooler It Gets
There's some unexpected physics at work in the solar atmosphere.
Universal History Archive/UIG/Getty Images
by Patrick J. Kiger
August 31, 2016
One of the weird things about space is that things don't
always conform to what would seem like common sense. Take the Sun, for example. You'd
think that the Sun's surface would be hotter than its outer atmosphere, since,
the surface is closer to the
nuclear furnace at the Sun's core. After all, when you're sitting in front
of a fireplace, it feels hotter when you get closer to it, right?
The problem is that the Sun doesn't work that way. The
photosphere, as the solar surface is called, is indeed pretty hot, between
6,700 and 11,000 degrees Fahrenheit (3,700 to 6,200 degrees Celsius). But the
further you get from the sun's surface, the hotter the atmosphere seems to get.
At the corona — the outermost atmospheric
layer about 1,200 miles (2,100 kilometers) from the surface — the
temperature soars to an astonishing 900,000 degrees Fahrenheit (500,000 degrees
Celsius).
Besides the sun, some other stars exhibit this curious
pattern as well, and for a long time, scientists struggled to figure out why.
They developed a hypothesis, in which magnetohydrodynamic
(MHD) waves distribute energy from below the photosphere directly up to the
corona, almost like an express train with no local stops.
In 2013, British researchers used advances in imaging
technology to examine the chromosphere, the layer between the photosphere and
the corona, and actually examined the MHD waves. Their calculations confirmed
that the waves could be responsible for transporting energy to the corona and
heating that layer.
"Our observations have permitted us to estimate the
amount of energy transported by the magnetic waves, and these estimates reveal
that the waves' energy meets the energy requirement for the unexplained
temperature increase in the corona," Richard Morton, a scientist for the
UK's Northumbria University, explained when announcing
the discovery.
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