The first image, relayed Friday at the NASA press conference, was exciting for the team as they received it. It shows how the rover approaches the surface of Mars during entry, descent and landing. The camera in the spacecraft descent scene captured the perspective, which was not possible in previous missions.
This shot from my jetpack’s camera records me in full flight just before my wheels land, according to a tweet from the Perseverance Twitter account. The moment my team has been dreaming of for years is now a reality. Daring things.
On the Martian surface, small plumes of dust can be seen that were generated by the thrusters used to land the rover when it was only 1.5 meters above the surface.
The team is overwhelmed with excitement and joy after the successful landing of another rover on the surface of Mars, said Adam Stelzner, the rover’s chief engineer. When we make these investments, we do so for humanity, and we do so as a gesture of our humanity.
We can only hope that in our efforts to design spaceships and explore our solar system, we can add another iconic image to this collection.
While the first images the rover sent back Thursday night were in black and white and showed it had landed safely on Mars, the color images delivered Friday show the distinctive red of the Martian surface.
An open horizon with so much to discover. I can’t wait to go, the tweets from the Perseverance account.
Scattered rocks can also be seen on the flat surface of the landing site in Jezero crater, but they are small compared to the rover’s large wheels.
Another tweet with an image read: I like rocks. Look at that next to my bike. Are they volcanic or sedimentary? What story are they telling? I can’t wait to find out.
The Mars Reconnaissance Orbiter’s HiRISE camera, which was flying over the landing site as Perseverance approached landing, captured an incredible image as the spacecraft’s parachutes opened.
The beauty of flying! HiRISE took this photo of @NASAPersevere on its way to the landing site over 700 km away! The HiRISE Twitter account.
If you look at the little circle below, this was our last landing point, said Aaron Stehura, assistant director of construction for Entry, Descent and Landing. You can see it’s not far from the river delta we were talking about.
Stahura also reflected on how the team viewed Rovers’ image in terms of relegation.
It’s something we’ve never seen before. It was incredible and the team loved it. And, you know, it’s just a sense of victory that we can capture it and share it with the world.
The teams also shared a bit about how they celebrated after landing. Some team members enjoyed ice cream outside at a safe social distance, there were many virtual parties, and team members slept better than they had in a long time, knowing that perseverance was safe.
What’s next for Rover?
The rover is doing very well, it’s healthy on the surface of Mars and remains very functional and great, said Pauline Hwang, the rover’s strategic mission leader.
The Rover will undergo an equipment check this weekend to make sure everything is working properly, she said. The head, or mast, will be extended and the mast cameras will capture more images of the rover’s surroundings to provide a panoramic view, as well as a self-contained view of the rover.
Ingenuity, a small helicopter hidden under the rover, will also pass inspection. There is still much to be done before the helicopter can begin a series of test flights within 30 days, and that will take time, Hwang said.
The rover must go to a place called a heliport, where it can land on the surface of Mars with a helicopter and fly away from it again. Photos and videos of these historic flights can be viewed and recorded. Ingenuity is also equipped with two cameras and will be able to share its aerial footage.
Now that the rover has landed, it can switch to the software it will need when it arrives on the surface of Mars.
The images the rover sends back will inform the science team so we can begin the actual mission, said Hallie Gengl Abarca, who leads the rover’s imaging and data processing team for surface operations.
Katie Stack Morgan, assistant scientist for Project Rover, leads a team of 450 scientists from around the world as they prepare to explore Jezero Crater. They are now ready to study these images and design a route for the rover to navigate through the crater’s fascinating features.
Perseverance landed about 1.2 miles from the river delta in the Jezero crater, which contained a lake 3.9 billion years ago. The rover will spend the next two years exploring the crater and delta, looking for evidence of ancient life that may have existed when Mars was a more habitable place.
The rover will examine nearby rocks on the crater floor to determine whether it is volcanic basalt or sedimentary rock, and investigate the presence of a mineral called olivine, Morgan said.
It’s a mineral we’re very interested in, and the idea is that it could be an explosive ash deposit in the Jezero crater, she said. On the other hand, we are in a lake area, and it may be lake sediment that we see.
Holes in some of the rocks seen in the rover’s images may indicate gas escaped from the rocks if they formed from lava, or liquids that dissolved some of the rocks if they are sedimentary rocks.
Between us and the Delta, we have a lot of interesting science, she said. Once we got a color photo of the Martian surface, our conversations became clearer and the science team said: Look here. Look here. And that’s exactly what we were hoping for, and we can’t believe we’re actually doing science on the surface of Mars.
frequently asked questions
How is this Martian rover different?
The Perseverance rover is based on the successful design of Mars Lab’s Curiosity rover. However, Perseverance has a new scientific and technological set of tools at its disposal. An important difference is that this predator can sample and hide minerals. Perseverance has a new sampling drill for this purpose.
Is the Curiosity rover still exploring on Mars?
The exploration of Mars continues. … The Curiosity rover has been exploring Gale Crater for more than six years. NASA’s Mars 2020 rover and the European Space Agency’s ExoMars rover will both launch in July 2020, making them the first rover missions to search for signs of microbial life on the Red Planet in the past.
Which rover is participating in NASA’s current Mars 2020 mission?
The Mars 2020 rover mission is part of NASA’s Mars Exploration Program, a long-term program of robotic exploration of the Red Planet.