December 17, 2018 | Motion Control InSight Measures Motion on Mars Motion Design INSIDER In the foreground, a copper-colored hexagonal cover protects the Seismic Experiment for Interior Structure instrument (SEIS), a seismometer that will measure marsquakes. (NASA/JPL-Caltech) NASA’s InSight lander has provided the first ever "sounds" of Martian winds on the Red Planet. Sensors captured a haunting low rumble caused by vibrations from the wind, estimated to be blowing between 10 to 15 mph. When earthquakes occur on Earth, their vibrations, which bounce around inside our planet, make it "ring" similar to how a bell creates sound. InSight will see if tremors, or marsquakes, have a similar effect on Mars. Source Topics: Motion Control More From SAE Media Group Tech Briefs TV Near-Daily 'Marsquakes' Detected by NASA Insight Seismometer Motion Design INSIDER Perseverance Rover Safely Lands on Mars Motion Design Earthly Twin Offers Test Bed for NASA’s Perseverance Mars Rover Tech Briefs TV 'Mini Rover' Can Wiggle Out of Martian Sand Traps More Tech Briefs TV Technology Demonstration: NASA is Sending a Helicopter to Mars Tech Briefs TV Full-Circle Panorama View of Mars from NASA's Curiosity Rover Motion Design INSIDER Tiny Curiosity Motor Identifies a Massive Martian Dust Storm Tech Briefs TV Curiosity Rover Completes Its First Martian Year Motion Design INSIDER Origami-Inspired Robot Can Ride with a Rover Motion Design Component Helps Perseverance Sample Mars Tech Briefs What Role Will Motors Play in Mars 2020 Missions? Tech Briefs TV NASA Tests Supersonic Parachute to Land the Mars Rover and Breaks World Record Tech Briefs TV NASA Tests 'PUFFER' - the Origami Robot that Will Explore Mars Tech Briefs TV Engineers Take NASA's Mars 2020 Rover for First Test Drive Tech Briefs TV First-Ever Rocket Launch from Mars? NASA and ESA Working to Bring Martian Soil Back To Earth Tech Briefs TV Watch NASA's Perseverance Rover Land on Mars Motion Design Origami-Inspired Robot Fits in Tight Spaces Tech Briefs TV Simulating Rocket Plumes to Stick the Landing on Mars Motion Design Chain Drive Dust Conveyer Motion Design Lightweight Crane Technology for the Moon View the discussion thread.