Perseverance: NASA Celebrates Mars Rover's Second Birthday
For the beyond two years, Steadiness has wandered Mars' Jezero Cavity searching for the most ideal examples of Martian soil to get back to Earth. Saturday, NASA authorities celebrated to vehicle estimated art's second birthday celebration on the Red Planet by anticipating what achieving in its third year in real life is set.
"Commemorations are a period of reflection and festivity, and the Diligence group is doing a ton of both," Determination project researcher Ken Farley said in a NASA public statement. "Constancy has investigated and performed information assortment on many charming geologic highlights, gathered 15 stone centers, and made the principal test terminal on a different universe. With the beginning of the following science crusade, known as 'Upper Fan,' on Feb. 15, we hope to add that count very soon."
Until this point in time, Constancy has gotten 18 examples up until this point, with the meanderer as of late sending an image of 10 such cylinders back to Earth.
"We manage a ton of numbers," added Persistence representative venture chief Steve Lee. "We gather them, assess them, look at them, and a bigger number of times than we need to concede, bore our friends and family with them during a family supper."
The way things are currently, those examples are set to get back to Earth eventually in 2031. A get create should send off towards Mars in 2026 preceding getting the examples and bringing back.
"The examples Tirelessness has been gathering will give a critical order to the development of Jezero Hole," Thomas Zurbuchen, partner chairman of NASA's Science Mission Directorate in Washington, said a year ago. "Every one is painstakingly considered for its logical worth."
"At the present time, we take what we are familiar the period of effect pits on the Moon and extrapolate that to Mars," added Katie Stack Morgan, Persistence's representative venture researcher at NASA's Stream Drive Lab in Southern California. "Bringing back an example from this vigorously cratered surface in Jezero could give a bind highlight adjust the Mars cavity dating framework freely, rather than depending entirely on the lunar one."