NASA rover Perseverance lands on Mars

[This livestream has ended. A replay is available above]

TO UPDATE: NASA successful landed his Perseverance rover on the surface of Mars. Read more about it here.

NASA is hours away from its most ambitious Mars mission to date. The US space agency will attempt to land the Perseverance rover after a journey of more than six months on the red planet.

Perseverance was built by NASA’s Jet Propulsion Laboratory in California and is the fifth and most technologically advanced rover the agency plans to deploy on the surface of Mars for nearly two years. The rover and its spaceship are equipped with two dozen cameras to capture its expedition. The robot is full of scientific instruments to measure the geology of the planet – and hopefully collect samples that NASA hopes to return to Earth one day.

“Mars stimulates our imaginations and has been part of our dreams for many decades. The persistence balances the long history of systematic science-driven exploration of Mars,” said Dr. Thomas Zurbuchen, Deputy Administrator of NASA’s Directorate for Scientific Missions, in a briefing before landing.

The rover is scheduled to touch the surface at around 3:55 p.m. ET.

Since launching on a United Launch Alliance Atlas V rocket on July 30, Perseverance has traveled 293 million miles to reach Mars. The rover is about the size of a small car, weighs about a ton in total, and is 10 feet long by 9 feet wide by seven feet tall. It has a robotic arm that is about 7 feet long, the end of which has a robotic hand that has a camera, chemical analyzer, and rock drill.

“We want to land on Mars … and with the cameras turned on so that the whole world is inspired by us,” said Zurbuchen.

The landing will include what NASA engineers call the “Seven Minutes of Terror”. This is the time it takes to enter the Martian atmosphere and descend to the surface. It is known as such because it takes 11 minutes for communication to occur from the rover back to Earth. This means that the spacecraft and the rover have to land autonomously for the time delay.

An animation of the Mars rover Perseverance entering the atmosphere of the red planet in a protective spaceship.

NASA / JPL-Caltech

Erisa Stilley, co-head of entry, descent and landing systems at NASA’s JPL, explained how the landing process is carefully coordinated after the rover has come through the atmosphere.

“Once the persistence on the parachute drops, we can now let go of the heat shield that protected us on entering and for the first time. [autonomously] Turn on the radar and look at the ground, “Stilley said in a pre-landing briefing.

Perseverance then uses a map on board and searches an area of ​​property worth about 120 soccer fields on the surface to find the safest place to land.

“That happens in the 2.4 seconds it takes endurance to send commands to separate from the rear hull and free fall,” said Stilley.

“When we have this knowledge and we are done with our free fall, we will fire the missiles,” added Stilley. “We’re going from 170 mph to about two at this point [miles per hour] while we slow down and prepare for the ‘sky crane’ maneuver. “

Persistence will take photos in entry time, which Stilley said NASA is hoping to “produce some images we’ve never seen before”.

This illustration shows the events in the final minutes of the nearly seven-month journey NASA’s Perseverance rover makes to Mars

NASA / JPL-Caltech

The rover wants to land in the Jezero crater, a 45 km wide basin in the northern hemisphere of Mars. It’s a place NASA believes a body of water the size of Lake Tahoe was flowing. NASA’s science team is hoping that the ancient river delta may have received organic molecules and other potential signs of microbial life that Perseverance will attempt to detect with its instruments.

NASA invested around $ 2.4 billion to build and launch the Perseverance mission. Another 300 million US dollars are to land and operate the rover on the surface of Mars.

Subscribe to CNBC PRO for exclusive insights and analysis as well as live business day programs from around the world.

Comments are closed.