InSight Lander studying ‘dust devils’ on Mars, spotted dead by NASA orbiter | – Times of India


NASA‘s InSight lander on Mars has made incredible strides in studying the Red Planet, and one of its most fascinating areas of research involves the mysterious phenomenon known as “dust devils.” These swirling, tornado-like formations, common on Mars, have long intrigued scientists due to their ability to move dust across the Martian surface. Using its suite of scientific instruments, the InSight lander has closely observed these dust devils to better understand the Martian atmosphere, climate, and how such phenomena may affect the planet’s geology.
In recent news, NASA’s InSight lander concluded its mission on Mars and has been spotted from orbit in stunning new images shared by the agency. After years of providing groundbreaking data on the Martian surface, including studying seismic activity and dust devils, InSight’s mission officially ended as it succumbed to the harsh Martian environment.

InSight Lander: Understanding its mission on Mars

  • InSight, which stands for Interior Exploration using Seismic Investigations, Geodesy, and Heat Transport, was a pioneering Mars lander tasked with providing the Red Planet’s first comprehensive checkup since its formation over 4 billion years ago. This mission marked the first time a robotic explorer studied Mars’ “inner space,” focusing on its crust, mantle, and core in unprecedented detail.

  • By investigating Mars’ internal structure, InSight aimed to answer fundamental questions about the early formation of rocky planets in our inner solar system—Mercury, Venus, Earth, and Mars—as well as rocky exoplanets. The lander also monitored seismic activity and meteorite impacts on the Martian surface.

  • Using advanced instruments, InSight probed beneath Mars’ surface to uncover the fingerprints of the processes that shaped the terrestrial planets. It did so by tracking the planet’s “vital signs,” including its “pulse” (seismology), “temperature” (heat flow), and “reflexes” (precision tracking).

InSight Lander’s final days and dust accumulation

  • MRO captures InSight’s last images: In October, the Mars Reconnaissance Orbiter (MRO) took images showing InSight’s retired lander, highlighting the accumulation of dust on its solar panels. The photos, taken with the HiRISE camera, revealed that the panels now match the reddish-brown color of the Martian surface.

  • Power loss due to dust: InSight’s mission, which operated from November 2018 to December 2022, focused on studying Marsquakes to understand the planet’s interior. Over time, dust gathered on its solar panels, reducing its power until the mission was no longer able to continue. NASA has attempted to reestablish contact but hasn’t received any signals, with efforts to reconnect set to end by the end of this year.

  • Ongoing search for signals: NASA continues to monitor for any signals from InSight in case dust clears off the panels, but as of now, no contact has been made. The mission team will stop looking for signals at the close of 2024.

The role of dust on Mars

  • Dust devil influence on Mars: Dust plays a crucial role in shaping the Martian atmosphere and landscape. Scientists are keen to study the behavior of dust because it is believed to impact both the planet’s climate and surface features. Dust on Mars is constantly moved by winds and dust devils, leaving behind clues about the planet’s processes.

  • Dust devils and their impact: Dust devils—whirlwinds created by rising warm air mixing with cooler air—are a common feature on Mars. These dust devils leave dark tracks across the surface and play a significant role in Mars’ seasonal atmosphere changes, especially during the planet’s summer months.

  • InSight’s lasting contribution: Despite the end of the InSight mission, the data collected continues to inform our understanding of Mars. As Ingrid Daubar of Brown University stated, “Even though we’re no longer hearing from InSight, it’s still teaching us about Mars.” The study of dust patterns, and how they interact with the Martian atmosphere, remains invaluable for future missions.

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