In the result published in the Science Advances magazine on May 14, 2025, the researchers launched new evidence that Venus is still geologically alive. Venus and the land were similar sizes and exploded in similar quantities of water billions of years ago. This joint origin raised questions like the reason that Venus has become very uninterrupted while the earth flourishes in the cradle of life. After more than thirty years, the Magellan spacecraft from NASA tracked the surface of the flower, and scientists found signals of hot materials from the inner part of the planet, indicating that the crust is still formed.
Scientists say that the flower may still be geologically active.
According to Research has revealed that Venus is geologically active, and the formation of its surface by internal heat. Scientists analyzed the large structures in the form of a loop called coronae, which was formed when the hot code pushes upside down and collapses in circular declines.
This gives an insight into the surface movement. Of the 75 Corona, it was analyzed with the help of Magilan NASA spacecraft Data52 sitting over the active scarf columns, which are difficult to believe.
The similarities between the flower and the early land
Anna Gulsher, the co -leader of the study, said these continuous operations are similar to the Earth. Venus carries 100s from Corona, especially inside the delicate crust and high thermal places.
Venus is amazingly thin
Justin Filberto of NASA’s astronomical research department found that Venus’s shell can explode or dissolve when it exceeds the thickness of only 65 km, which is a thin barrier.
Recycling scales and volcanic activity
Calculating not only forms the surface, but also recycled materials, such as water in the inner part of Venus, which leads to volcanic activity and atmosphere transformations. The mechanism reacts how geology, atmosphere and dandruff on the flower simultaneously.
Next tasks to reveal more
Future tasks include Veritas and Davinchy NASA. Moreover, ESA depicting high -resolution data to verify the results. Suzan Smirkar focused on these tasks that could change our understanding of the biology of the place with the evidence of the past.
