NASA to launch 2 missions DAVINCI+ and VERITAS to study lost habitable world of Venus
NASA has chosen two new missions to explore Venus, DAVINCI+ and VERITAS, in order to learn more about how Earth s nearest planetary neighbour evolved into an inferno-like world. Each is scheduled to debut between 2028 and 2030.
By IANS
Researchers detected phosphine in Venusian atmosphere
NASA has selected two new missions to study Venus to understand how Earths nearest planetary neighbour became an inferno-like world when it may have been the first habitable world in the solar system, complete with an ocean and Earth-like climate.
The two missions were selected, based on their potential scientific value and the feasibility of their development plans, from four mission concepts that NASA picked in February 2020 as part of the agency s Discovery 2019 competition.
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Spaceflight Insider
Theresa Cross
June 3rd, 2021
An illustration of the VERITAS orbiter, which was one of two missions selected to study Venus at the end of the 2020s under NASA’s Discovery Program. Credit: NASA
As part of NASA’s emerging area of research, two new missions have been selected to study Venus as part of NASA’s Discovery Program.
The missions, the DAVINCI+ atmospheric probe and the VERITAS orbiter, seek to better understand how Venus changed from being possibly the first habitable planet in our solar system with oceans and near-Earth conditions to an “inferno like world.” These missions were among four potential chosen following a peer-based review process in February 2020 for their feasibility and contribution to scientific discovery.
No force â including gravity â could hold a team of NASA researchers down in their quest for a scientific breakthrough to benefit life on Earth and in space.
Scientists from Marshall Space Flight Center completed two parabolic flights April 28-29 to test modifications to a payload called the ring-sheared drop.
âThis demonstration proved that the modified hardware is capable of deploying and pinning each of the protein solutions that will be used in an experiment using the ring-sheared drop hardware on the International Space Station,â Louise Strutzenberg, co-investigator on the ring-sheared drop parabolic re-flight experiment, said. âThe lessons learned will prepare us to take the next steps before resuming testing on the space station.â