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Monday, September 26, 2022
Home DAVINCI+ uses observations from both above and within the planetary atmosphere to answer major questions about how Venus was formed, has evolved, and possibly lost its habitability (and past surface oceans). (NASA GSFC visualization and CI Labs Michael Lentz and colleagues) DAVINCI+ uses observations from both above and within the planetary atmosphere to answer major questions about how Venus was formed, has evolved, and possibly lost its habitability (and past surface oceans). (NASA GSFC visualization and CI Labs Michael Lentz and colleagues)

DAVINCI+ uses observations from both above and within the planetary atmosphere to answer major questions about how Venus was formed, has evolved, and possibly lost its habitability (and past surface oceans). (NASA GSFC visualization and CI Labs Michael Lentz and colleagues)

DAVINCI+ uses observations from both above and within the planetary atmosphere to answer major questions about how Venus was formed, has evolved, and possibly lost its habitability (and past surface oceans). (NASA GSFC visualization and CI Labs Michael Lentz and colleagues)

DAVINCI+ uses observations from both above and within the planetary atmosphere to answer major questions about how Venus was formed, has evolved, and possibly lost its habitability (and past surface oceans). (NASA GSFC visualization and CI Labs Michael Lentz and colleagues)

DAVINCI+ will send a meter-diameter probe to brave the high temperatures and pressures near Venus’ surface to explore the atmosphere from above the clouds to near the surface of a terrain that may have been a past a continent. (NASA GSFC visualization by CI Labs Michael Lentz and others)