Stories
Slash Boxes
Comments

SoylentNews is people

posted by Fnord666 on Sunday March 28 2021, @07:39PM   Printer-friendly
from the First-Post-on-Mars! dept.

Salon has an article on Ingenuity.

In 1903, Orville and Wilbur Wright flew a plane for 12 seconds, 120 feet in the air, on what is now known as the first powered-controlled flight on Earth. Now, 118 years later, the first powered-controlled attempt at a flight on another planet is about to take place.

According to NASA, Ingenuity — the four-pound rotorcraft attached to Perseverance — is on its way to its "airfield" on Mars.

The space agency announced that its target for its first takeoff attempt will happen no earlier than April 8, 2021.

Ingenuity was designed as an experiment to see if it is possible to fly on Mars as we do here on Earth. And the process leading up to the takeoff is a very meticulous one. Consider how long it took humans to stick a powered-controlled flight on Earth; given Mars' thin atmosphere and a twenty-minute delay in communication, it is arguably more challenging on Mars.

"As with everything with the helicopter, this type of deployment has never been done before," Farah Alibay, Mars helicopter integration lead for the Perseverance rover, said in a press statement. "Once we start the deployment there is no turning back."

Every move for the next couple of weeks could make or break Ingenuity's success — starting with precisely positioning the rotorcraft in the middle of its 33-by-33-foot square airfield, which is actually a flat field on the Martian surface with no obstructions. From there, the entire deployment process from Perseverance will take about six Martian days, which are called sols. (The Martian sol is thirty-nine minutes longer than an Earth day.)

Good luck, little chopper!

Previously:
NASA Lays Out Plans for its First Flights on Mars
How NASA Designed a Helicopter that Could Fly Autonomously on Mars
NASA is Sending a Helicopter to Mars, but What For?


Original Submission

 
This discussion has been archived. No new comments can be posted.
Display Options Threshold/Breakthrough Mark All as Read Mark All as Unread
The Fine Print: The following comments are owned by whoever posted them. We are not responsible for them in any way.
  • (Score: 1) by khallow on Tuesday March 30 2021, @04:42AM

    by khallow (3766) Subscriber Badge on Tuesday March 30 2021, @04:42AM (#1131073) Journal

    A manned moon base can never be fully self-sufficient as there is no known source of chlorine

    While it is presently unknown, my take is that there's probably deep crust sources of chlorine in the Moon. All that volcanism is chemically similar to volcanism on Earth (which often has a lot of chlorine and fluorine in it, such as at Iceland), and we know from the dispersion of some lava eruptions on the Moon, that at one point it did have considerable volatiles in the magma source to cause that dispersion. So it is reasonable to expect that some of these volatiles are still trapped in the Moon or chemically bonded to igneous rock.

    A stronger case can be made for hydrogen and nitrogen which both are similarly scarce on the Moon's surface, but required in far greater quantities.