The fourth largest moon of Jupiter contains pockets of water that may support life


A team of scientists revealed that the fourth largest moon To JupiterEurope, it may have pockets of water inside its ice-covered surface that could support life, and a team from the Georgia Institute of Technology in the United States used photos of Satellites Of the landmarks on the frozen surface of the moon and modeled their age and size.

Scientists expect that these features are pockets of liquid water inside a 15-mile-thick ice crust, which lasted for a few thousand years before being re-frozen, and confirmed that these pockets of water could be livable and contain current microbial life that might be able to “the multi-flight mission.” About Europe, “affiliated with NASA, which will be launched in 2024, from its discovery.

Europe is known as the fourth largest moon of the gas giant Jupiter, and is believed to contain a liquid water ocean 100 miles below its frozen surface, and there is evidence of modern geological formations within the frigid crust 15 miles thick, including small, dark, dome-like features in the distance. One mile below the surface.

Using numerical simulations, the team found that these features contain relatively short-lived, shallow water present in the ice crust, and the team demonstrated that these water pockets within the wider ice sheet could be suitable for microbial life, although no life has yet been discovered.

Scientist Chase Chevers and his colleagues modeled the pockets in images from NASA’s Galileo spacecraft, which explored Jupiter’s system in the 1990s and 2000s, and believed that dark spots in some pockets discovered on the surface of Europe’s moon were associated with the salt in the interior. Earth that keeps the water liquid and slows down the freezing process.

It is hoped that the “multi-flight mission around Europe”, which was called “Europe-Clipper”, scheduled to be launched in 2024, will be able to discover the pockets closest to the surface of the moon. This spacecraft will reach the moon in 2030 and use radar to search below the surface, and an analyzer. To study the dust coming from the moon in plumes, and if these plumes were created from these pockets, as the team predicted, they may discover evidence of microbial life in the dust.


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