Water-rich asteroids are interesting phenomena. Those asteroids are located between Mars and Jupiter. There is the possibility that they are remnants of the water-rich planet or moon located in the place of an asteroid belt. The fact is that water doesn't come to those asteroids from anywhere. And then another thing is that if water is hiding in crystals. That means there is a possibility that those asteroids are sometimes part of the entirety, where is water.
Water can move in the crystals under extremely high pressure and temperature. When some meteorite impacts the planet it forms shockwave, and vaporized water impacts with melted stone. In that case, the pressure can push water into crystals.
In some scenarios, comets brought water to Earth. But then we can make the induction question: where those comets got their water? Water is a chemical compound. And for forming water molecules those elements' energy levels must not be too high. If the impact between hydrogen and oxygen atoms is too strong, that makes those atoms melt together. Chemical burning is not the same thing as fusion.
"The asteroids are located in the asteroid belt between Mars and Jupiter and are rich in water." (Scitech.com/Astronomers Identify Unknown Class of Water-Rich Asteroids)
And that causes questions about the possibility that those asteroids could be remnants of some water-rich planet located near the asteroid belt. Another thing that supports this hypothesis is the water on the dwarf planet Ceres. So was Erich von Däniken right about the planet, that was destroyed in our solar system?
Erich von Däniken introduced the vision of the destroyed planet at the point of the asteroid belt in the 1970s. At that time that theory was crushed, but the new evidence about water in the solar system is making the need to re-estimate that theory. Also, the Saturn rings formed in the destruction of one of its satellites or moons. So why at least part of the asteroid belt cannot form is a similar impact.
And that causes questions about the possibility that those asteroids could be remnants of some water-rich planet located near the asteroid belt. Another thing that supports this hypothesis is the water on the dwarf planet Ceres.
Water is forming when hydrogen makes a compound with hydrogen. And that thing makes water that is important for life. But when we are thinking about water there is, of course, a possibility that water is forming around some star. But that thing is a very unusual situation because that thing requires a precise right energy level. However, theoretically is possible that the star can give the precise right impact on atoms, and forms the chemical fire around it.
But that thing requires that there is oxygen and hydrogen around that star. There is the possibility that the radiation pressure from that star pushes hydrogen and oxygen together. But in many other scenarios, the planet, that has hydrogen and oxygen in its atmosphere turns very close to its star.
And then heat from that star causes fire in that planet's atmosphere. But that thing requires that there is hydrogen and oxygen along with enough strong gravitational field and pressure that it can keep those gasses around them. So the origin of water remains a mystery. And maybe that water-rich asteroids can answer the question, where the water came into our solar system?
https://solarsystem.nasa.gov/planets/dwarf-planets/ceres/in-depth/
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