Are the flashes of hyper-energetic lightning the thing that causes X-ray emission in the atmosphere of Uranus?

Image: "A composite image of the planet Uranus shows 2002 X-ray emission in pinkish purple. (Image credit: X-ray: NASA/CXO/University College London/W. Dunn et al; Optical: W.M. Keck Observatory)"

(https://www.space.com/uranus-emitting-x-rays-chandra-observations)

The forming of the X-ray emission in the Uranus can explain by impacting the high energetic particles. So we might ask, is the same thing that causes X-ray emission in the high atmosphere of Uranus the thing that causes the formation of the acetylene in its atmosphere?

Flashes of lightning can be the reason why there is an X-ray emission of the atmosphere of Uranus. So the theory of the source of those X-ray flashes goes like this:

There are two types of fashes of lightning in the atmosphere of planet Uranus.

1) The first type of flashes of lightning form in the high atmosphere when the high-energy particles are hitting the atmosphere of planet Uranus.

2) The second type of flashes of lightning is formed by the friction of icy particles in the atmosphere of planet Uranus. That kind of lightning is almost similar to flashes of lightning on Earth.

The flashes of lightning are forming ions, anions, and free electrons. Those things are impacting high-energy particles that are coming from outer space. Then those impacting particles are causing the X-ray flashes in the atmosphere of Uranus.

But the thing is that those flashes of lightning in the Uranus atmosphere are more high energy than flashes of lightning are on Earth. The temperature is rising higher than on the atmosphere on Earth. And the flashes of lightning are ionizing gas in the atmosphere.

So the ionized gas is like helium plus ions which are alpha rays. Along with protons or hydrogen ions are impacting with the electrons and anions that are in the atmosphere of Uranus and the cosmic radiation be the source of the X-ray emission in the atmosphere of Uranus. When those particles are hitting together they are sending X-rays.

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The electrostatic conditions in the atmosphere of Uranus are different than on Earth.

Along with the temperature that is 53 degrees kelvin, that thing causes effects that are different than on Earth. The lightning hits at the same time with the superconducting materials and materials where is resistance.

The electron flow can travel from the high atmosphere through all gas mass to the surface of Uranus. And the source of the flashes of lightning can be the high-energy particles that cause the X-ray emission at the higher atmosphere of the Uranus.

So could the flashes of lightning of Uranus be the sources of the X-ray emission of that planet? There are two types of lightning in the atmosphere of that planet. The other flashes are forming when the high-energy particles are impacting the high atmosphere of that planet. The other flashes of lightning are forming inside the atmosphere when icy particles are hitting each other.

The friction of the icy particles is causing static electricity. That static electricity ionizes the atmosphere to superconducting ions. Then the source of the X-ray flashes could be. That that lightning or ionized gas impacts with high-energetic particles that are coming from the space.

The mystery of Uranus is why there is carbon monoxide, ethane. And acetylene (C2H2), and more complicated molecules in the atmosphere of Uranus? Things like carbon monoxide are normally formed when carbon is connecting with oxygen. The temperature of the atmosphere of the planet Uranus is 53 degrees kelvin. And that means it's 53 degrees over absolute zero. An extremely low temperature means that the chemical reaction on planet Uranus is extremely slow. The chemical formation of the atmosphere of that planet is different than Earth.

It consists mainly of helium and hydrogen. So what forms those gases in its atmosphere. There is the possibility that some comets are bringing them to Uranus. Another source of those molecules can be that the flashes of lightning in the atmosphere of that planet causes chemical reactions that are unknown on Earth. The metals and many other materials are in superconducting in such low temperatures. When a flash of lightning hits the extremely cold gas.

https://earthsky.org/space/x-rays-detected-from-uranus-chandra-x-ray-observatory/

https://www.livescience.com/uranus-x-ray-radiation-detected.html

https://www.space.com/uranus-emitting-x-rays-chandra-observations

https://en.wikipedia.org/wiki/Uranus

Image: https://www.space.com/uranus-emitting-x-rays-chandra-observations

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