What makes NASA’s InSight different from past Mars missions? Instead of exploring the surface, this lander is studying the planet’s interior, searching for seismic activity (marsquakes) and measuring ...

A massive meteor strike on Mars sent shockwaves across the planet, revealing that some of its tremors weren’t tectonic but ...

With help from AI, scientists discovered a fresh crater made by an impact that shook material as deep as the Red Planet’s ...

Mars spacecraft teamed up with an AI model to find a new impact crater on on the Martian surface, changing our understanding ...

New research shows that meteoroid impacts on Mars generate seismic signals that travel much deeper than previously thought, ...

Captured by the HiRISE camera on NASA's Mars Reconnaissance Orbiter on March 4, 2021, this impact crater was found in ...

Burrowing under soil opens up a whole new world, especially when that soil is on other planets. Getting under the top layer ...

Now, researchers have connected 49 seismic events to impact craters, proving that meteorite strikes leave distinct seismic ...

At the SR Institute, a multi-body dynamics model of the "Mole" was coupled with complex particle models of the Martian soil in a co-simulation in order to predict the impact performance with high ...

Data collected by NASA's InSight lander suggest that ancient internal ... have finally solved a 50-year-old mystery: why one half of Mars is so drastically different from the other.

Dr. Root indicated that the new data from the InSight mission prompts a reevaluation of how Olympus Mons and its surrounding area are supported. It suggests that Mars might still be experiencing ...

To investigate this, Professors Sun and Tkalčić used low-frequency marsquake data recorded during NASA's InSight mission that took place between 2018 and 2022, which aimed to study Mars's crust ...