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Space Capsule With 3 Astronauts Returns to Earth

posted by Fnord666 on Friday December 15 2017, @10:43PM   Printer-friendly
from the how-many-astronauts-does-it-take dept.

Phoenix666 writes:

Three astronauts on Thursday landed back on Earth after nearly six months aboard the International Space Station.

A Russian Soyuz capsule with NASA's Randy Bresnik, Russia's Sergey Ryazanskiy and Paolo Nespoli of the European Space Agency descended under a red-and-white parachute and landed on schedule at 2:37 p.m. local time (0837 GMT; 3:37 a.m. EST) on the vast steppes outside of a remote town in Kazakhstan.

The three were extracted from the capsule within 20 minutes and appeared to be in good condition.

Bresnik, Ryazansky and Nespoli spent 139 days aboard the orbiting space laboratory. The trio who arrived at the station in July contributed to hundreds of scientific experiments aboard the ISS and performed several spacewalks.

They left Alexander Misurkin, commander of the crew, and two Americans, Joe Acaba and Mark Vande Hei, in charge.

Do you think astronauts on the ISS play a drinking game where they try to land toilet bombs on earth-bound targets? I would.

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  • (Score: 2) by Arik on Sunday December 17 2017, @11:22AM

    by Arik (4543) on Sunday December 17 2017, @11:22AM (#610957) Journal
    Hah, I was waiting for someone to catch that.

    Yeah, that was a case of should have hit preview again, I lost an edit.

    Actually firing something at that velocity is still far from trivial. But it's not actually required to do the job.

    There are a couple of possible ways around it. One, of course, is to strap a rocket on the thing and fire it later. Still would need quite a powerful rocket, at least in proportion to the mass of the projectile, but clearly not all of the necessary deceleration has to come at the start. So we can add these things together, at least, the initial velocity, and some later impulse as well.

    But neither is going to easily add up to the full amount we want if we're thinking of it as fully kicking it out of orbit, countering the orbital velocity and bringing it to a standstill. But our goal is just to see it fall to earth, and to do that we don't need to make it stop on a dime. It would be sufficient just to nudge it into a more eccentric orbit, if that results in a perigee a little lower in the atmosphere, where drag can do the rest.
    --
    If laughter is the best medicine, who are the best doctors?
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