Tag: mars
NASA wants you to get your boarding pass to Mars
You probably won’t visit Mars for a long time, if ever. You might have a way to go in spirit, though. NASA has introduced a “Send Your Name” campaign that will put your name on the Mars 2020 rover, leaving a long-term record of your name on the Red Planet. It won’t be easy to read — JPL is using an electron beam to etch over a million names on a dime-sized chip — but you will get a “boarding pass” to prove that your name is Mars-bound.
The option is available to virtually anyone in the world and doesn’t require more sensitive info than your email address. NASA cautions that your inclusion is “subject to review,” so pranksters and spammers aren’t guaranteed to get their names on the rover. You have until September 30th to participate.
NASA isn’t shy about the motivations here: it’s drumming up hype for its extraterrestrial missions, whether it’s Mars exploration or its ambitious plan to return astronauts to the Moon. Regardless, it’s hard not to get a little bit excited knowing that you’ll have some kind of presence on Mars, even if it’s purely symbolic.
Article via ENGADGET
NASA Live: Earth Views from the Space Station
Behold, the Earth! See live views of Earth from the International Space Station coming to you by NASA’s High Definition Earth Viewing (HDEV) experiment.
While the experiment is operational, views will typically sequence through the different cameras. If you are seeing a black image, the Space Station is on the night side of the Earth. If you are seeing an image with text displayed, the communications are switching between satellites and camera feeds are temporarily unavailable. Between camera switches, a black & gray slate will also briefly appear.
The experiment was activated on April 30, 2014 and is mounted on the External Payload Facility of the European Space Agency’s Columbus module. This experiment includes several commercial HD video cameras aimed at the Earth which are enclosed in a pressurized and temperature controlled housing. To learn more about the HDEV experiment, visit: https://eol.jsc.nasa.gov/ESRS/HDEV/ Please note: The HDEV cycling of the cameras will sometimes be halted, causing the video to only show select camera feeds. This is handled by the HDEV team, and is only scheduled on a temporary basis. Nominal video will resume once the team has finished their scheduled event.
Days Away From Mars, NASA Awaits ‘The Seven Minutes Of Terror’
Article via Forbes
Flying the freeway to Mars, the robotic probe InSight nears the end of its 301-million-mile cruise with nary a hitch and hardly a hiccup.
But looming just ahead is the exit ramp—the Martian atmosphere.
“There’s a classic term for it,” says Rob Grover of the Jet Propulsion Laboratory in Pasadena, California. “The seven minutes of terror.”
That’s approximately the time InSight takes to land, a spooky 70-mile descent from the top of the atmosphere down to the ground.
Says Grover: “There is very little room for things to go wrong.”
Yet hundreds of things must go right, all without NASA’s backseat driving; during landing, there’s no joysticking.
“We can’t fly the vehicle in ourselves,” Grover says. “The flight computer on board has to do it on its own. Everything has to work perfectly by itself.”
And for those seven minutes: “Our hearts will be pounding.”
On left, the cruise stage, now separated; on right, the backshell containing the lander.Credit: NASA / JPL-Caltech
InSight lands November 26, the Monday after Thanksgiving, at 11:47 AM Pacific Time (2:47 PM Eastern).
Before the clock starts: The cruise stage—its delivery done—detaches from the capsule containing the lander.
Then the capsule—just before reaching the atmosphere—points itself, “tilting down 12 degrees,” says Grover. NASA’s leeway is minuscule, only “plus or minus a quarter of a degree.” Too shallow an angle, and the spacecraft skips off the atmosphere. Too steep, and it burns up.
And now the terrifying part.
InSight thunders in at 12,300 miles per hour—almost three-and-a-half miles per second.
Friction roasts it. The temperature on the heat shield hits 1,800 degrees Fahrenheit.
Friction also brakes it; within two minutes, the speed of the spacecraft slows by more than 90 percent.
Yet it’s still going 1,000 miles per hour.
At seven miles up—commercial airliners fly about that high—the parachute opens. Within 15 seconds, the heat shield jettisons. For the first time, the lander is exposed to Martian air.
Another 10 seconds, and the three legs deploy. One mile above the ground, the lander falls from the backshell. Descent engines turn on. Touchdown velocity is 5 miles per hour.
Much could happen. The parachute might not open properly. The falling heat shield could graze the lander. Descent engines may not shut off. A large surface rock could sit in the way. One of the legs might not release and lock.
Those scenarios, though unlikely, are not implausible. Any of them could cause an erratic landing.
“If the lander were to tip over,” says Grover, “it doesn’t have the ability to right itself. We would be stuck in that position. The science would be very difficult to do.”
Not helping any of this: The probe touches down during dust storm season.
“A global dust storm can blow up in a matter of days,” acknowledges Grover. But NASA isn’t fretting.
“We’ve been rehearsing for that,” he says. “We’ll land successfully in just about any conditions thought possible during the season.”
Right now, atmospheric dust is minimal; weather at the landing site appears normal.
Grover—a 17-year JPL veteran, including six years on InSight—admits “there’s a lot of anticipation” at NASA about the landing.
“A combination of excitement and nervousness,” he says. “But there’s a sense we’ve done everything we can.”
Any surprises from the mission, he expects, will be good ones.
“There’s magic around it,” he says, “even better than Christmas.” Just get past those seven minutes.