![]() ![]() Its final resting place will be in the Jezero Crater as NASA moves on to the main focus of its mission: getting the Perseverance rover to study Mars for evidence of life. Ingenuity is only designed to last for 30 Martian days, and is expected to stop functioning around May 4. This site is maintained by the Mars Communications Team at NASAs Jet Propulsion Laboratory for NASAs Science Mission Directorate. Each one is designed to further push the limits of Ingenuity’s capabilities. The derring-do Mars helicopter is about to take on its greatest challenge yet. What’s next: In the next few weeks, Ingenuity will conduct four more flights, each lasting up to 90 seconds. ![]() The rover is searching for signs of past Mars life in Jezero. Ingenuity will also help inform the design of Dragonfly, a car-size drone that NASA is planning to send to Saturn’s moon Titan in 2027. The car-sized Perseverance rover touched down inside the Red Planets 28-mile-wide (45 kilometers) Jezero Crater on Feb. Future drone helicopters could help rovers or even astronauts by scoping out locations, exploring inaccessible areas, and capturing images. Why it’s significant: Beyond being a significant milestone for Mars exploration, the flight will also pave the way for engineers to think about new ways to explore other planets. Raw images of Mars taken by the Perseverance rover and Ingenuity Mars helicopter in Jezero Crater. ![]() The flight had originally been scheduled to take place on April 11 but was delayed by software issues. Ingenuity's 47th flight on Mars on March 9 featured a plethora of footage from the drone, flying tens of feet above the surface, as well as its companion rover Perseverance. Instead, we control our Mars Helicopter in the same manner as full-scale terrestrial helicopters: by changing the pitch angle of the blades, which affects the airfoil angle of. Unlike many consumer drones, Ingenuity is not controlled by changing the rotor speeds. That meant Ingenuity had to be light, with rotor blades that were bigger and faster than would be needed to achieve liftoff on Earth (although the gravity on Mars, which is only about one-third of Earth’s, worked in its favor). Here are some key aspects of the flight control system’s performance on Mars. The drone-like flying machine reached a speed of 10 meters per second (22.4 mph) during. The details: The flight was a significant technical challenge, thanks to Mars’s bone-chilling temperatures (nights can drop down to -130 ☏/-90 ☌) and its incredibly thin atmosphere-just 1% the density of Earth’s. NASA’s Ingenuity helicopter has just flown faster than ever over the surface of Mars. ![]()
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