“Left” and took all the water with him: Jupiter may be to blame for the “inhospitable” of Venus

“Left” and took all the water with him: Jupiter may be to blame for the “inhospitable” of Venus

Due to the fact that Jupiter changed its orbit at the stage of its formation, Venus turned into a waterless world with a dense atmosphere.

Scientists at the University of California at Riverside are inclined to this opinion, their work was published in The Planetary Science Journal.

Jupiter's mass is two and a half times the mass of all other planets in our solar system combined. Its gigantic scale could easily affect the orbits of other planets and their habitability.

At the beginning of the formation of Jupiter as a planet, it was closer to the Sun, but then moving away from it due to interaction with other giant planets of the outer solar system. This movement, in turn, influenced Venus.

Observations of other planetary systems have shown that such migrations of giant planets soon after formation may be relatively common.

Scientists believe that planets lacking liquid water are not capable of supporting life as we know it. While Venus may have lost some water early in its formation for other reasons, and would probably have continued to do so anyway, UCR astrobiologist Stephen Kane stated that it was Jupiter's motion that probably pushed Venus on its way to its current inhospitable state.

“One of the interesting things about Venus today is that its orbit is almost perfectly circular,” explains Kane, who led the study. “In this project, I wanted to find out if it always had such a circular orbit, and if not, what are the consequences of this?”

To answer these questions, Kane created a model that mimics the solar system, calculating the location of all the planets at any given time and how they pull each other's orbits in different directions.

The scientist found that as Jupiter migrated and was influenced by Venus's orbit, the planet underwent catastrophic climate changes, heating up and then cooling down and losing water in the atmosphere.

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Ultimately, Kane says, it's important to understand what happened to Venus, a planet that once had the right conditions for life to form and is now heated to 427 degrees Celsius.

“I focus on the differences between Venus and Earth and what went wrong with Venus so that we can understand how livable the Earth is and what we can do to take better care of this planet,” the scientist concludes.


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