To mark Curiosity rover’s fourth anniversary since landing on Mars, NASA has launched a new mobile game that lets users explore the rugged terrain of the red planet. In the social media game, Mars Rover, players drive through Mars, challenging themselves to navigate and balance the rover while earning points along the way. The game also illustrates how NASA’s next Mars rover, in development for launch in 2020, will use radar to search for underground water.
“We’re excited about a new way for people on the go to engage with Curiosity’s current adventures on Mars and future exploration by NASA’s Mars 2020 rover too,” said Michelle Viotti, manager of Mars public engagement initiatives at NASA’s Jet Propulsion Laboratory in the US. Meanwhile, on Mars the real rover has driven to position for drilling into a rock target called “Marimba,” to acquire rock powder for onboard laboratory analysis.
The rover has begun a multi-month ascent of a mudstone geological unit as it heads towards higher and progressively younger geological evidence on Mount Sharp, including some rock types not yet explored. The mission is examining the lower slopes of Mount Sharp, a layered mountain inside Gale Crater, to learn more about how and when ancient environmental conditions in the area evolved from freshwater settings into conditions drier and less favourable for life.
Six of the mission’s 13 drilled rock-samples so far, and two of its four scooped soil samples, have been collected since the third anniversary of landing. In its four years, Curiosity has returned more than 128,000 images and fired its laser more than 362,000 times. As of the fourth anniversary, Curiosity has driven 13.57 kilometres.
Curiosity landed inside Mars’ Gale Crater on August 6, 2012. During the rover’s first Earth year on Mars, the mission accomplished its main goal when it found and examined an ancient habitable environment. Researchers determined that a freshwater lake at the “Yellowknife Bay” site billions of years ago offered the chemical ingredients and energy favourable for supporting microbial life, if life has ever existed on Mars.