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NASA Mars Space

NASA Will Land InSight on Mars With Cunning -- and Lots of Cork (wired.com) 70

On Monday, November 26th, NASA will attempt to land the InSight spacecraft on Elysium Planitia, a vast plain just north of the Martian equator. If NASA is successful, InSight (short for Interior Exploration using Seismic Investigations, Geodesy, and Heat Transport) will be the first mission to investigate Mars' deep interior with thermal probes and seismometry, an approach scientists think will address questions about the red planet's formation and composition. But first, the spacecraft must land. From a report: Getting to Mars is hard, but NASA engineers consider entry, descent, and landing -- the seven-minute period in which mission planners are helpless to intervene, due to the tremendous distance between Mars and Earth -- the riskiest sequence in the entire mission. Here's how NASA plans to pull it off.

For InSight, the action will begin Monday, November 26th at around 11:47 am PT (2:47 pm ET). That's when the lander is slated to hit the top of Mars' atmosphere, at an altitude roughly 43 miles above the planet's surface. On contact, the spacecraft will be blazing along at a not-so-cool 5500 meters per second. That's 12,300 miles per hour. At those speeds, the primary concern for NASA's engineers is friction. Mars' atmosphere, which is roughly 100 times thinner than Earth's, plays a vitally important role in InSight's arrival: Bleeding the spacecraft of its kinetic energy. Yet the atmosphere poses a significant threat, as well. The resistance it exerts on InSight's heat shield, a 419-pound enclosure composed primarily of crushed cork, will drive the temperature of the protective barrier to temperatures greater than 2,700 degrees Fahrenheit -- hot enough to melt steel.

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NASA Will Land InSight on Mars With Cunning -- and Lots of Cork

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  • And give it all to SpaceX.

    They are actually accomplishing something, besides cost overruns.

    We made heat shields that did a much harder job in the 60's, bringing Astronauts home; this is something harder?

    LOL.

    The SLS is overbudget, behind schedule, and will need Billions of dollars to finish.

    What has NASA done since the 60's?

    Fucked up the concept of a Reusable Space Plane to the point we lost Two Sets of Astronauts for Trivial reasons, and are riding to the Space Station with Russia, maybe?

    It should be disban

    • by Anonymous Coward on Friday November 23, 2018 @11:13AM (#57688564)

      And give it all to SpaceX.

      Which is funded by NASA.

      Slashdot commenters seem to forget that the entire reason SpaceX didn't go bankrupt after the third failure of the Falcon-1 is that NASA believed in them and stepped in to fund them to design and build the Falcon-9, at a time when nobody else in the world saw anything in them other than a fringe company that tried to make a rocket and failed.

      If you're asking what NASA has accomplished since the 60s: well, this is one thing.

      Without NASA there would be no SpaceX. [arstechnica.com]

    • It should be disbanded, and restarted by new people.

      Give the contract to Hollywood, they have decades of experience with reboots. Coming in 2021: NEONASA.

    • And give it all to SpaceX.

      They are actually accomplishing something, besides cost overruns.

      We made heat shields that did a much harder job in the 60's, bringing Astronauts home; this is something harder?

      How's your Chemtrail research coming along?

    • by andydread ( 758754 ) on Friday November 23, 2018 @11:57AM (#57688776)

      We made heat shields that did a much harder job in the 60's, bringing Astronauts home; this is something harder?

      If you understand the process of EDL on Mars then yes. It's much harder to land spacecraft on Mars than on Earth. It would be better if Mars did not have an atmosphere. The problem is that Mars has just enough atmosphere to where you have to deal with it during EDL. This means you need a good heat shield that problem is basically solved like you said. Because the atmosphere on Mars is so thin it's difficult to slow down the spacecraft unlike on Earth. This requires some atmospheric gymnastic for the spacecraft to perform during EDL in order to slow the aircraft down in the atmosphere of Mars down to ~1000Mph in which case a supersonic parachute is deployed. As you can imagine deploying a parachute that has to be extremely light yet handle 8000+ pounds of load at 1000Mph is no small task. However given that Mars atmosphere is so thin the parachute alone will only slow the load down to 200 Mph. What do you do then?? Well retro rockets have to kick in and slow the craft down to landing speed but it's not that simple, you have can't land the load with retro rockets because the massive amount of dust will be all over the newly delivered load. So you need to use retro rockets in a sky-crane configuration attached to the sky-crane that will lower the load down to the surface from the sky-crane then detach the sky-crane and fly it away so the landing site is not disturbed. And you have to do this with a very delicate science laboratory on wheels and get it there on one piece with out any shock damage what-so-ever.

      See here [youtube.com] for more information

      • Re: (Score:2, Informative)

        by Anonymous Coward

        It appears they're not using a sky crane for this landing.
        https://www.youtube.com/watch?v=C0lwFLPiZEE

      • SpaceX is expecting to bleed off 99% of energy by atmospheric braking with its Mars rocket. It might be thin but it can still be useful.

      • It is used to slow down from some 5,000 m/s to a few hundred. If Mars had no atmosphere it would require a huge amount of fuel to do that slow down.

        The only issue is that the atmosphere is so thin that the last bit of slowing does need to be done with rockets. But it is 90% with heat shield and 9% with parachute.

      • by mentil ( 1748130 )

        Couldn't the payload land with a fairing that's only deployed once the dust settles? Et voila, no dust on the payload. You could probably even use a soft fairing (e.g. vinyl bag) that unzips or whatever, if you need to save on weight..

        • Couldn't the payload land with a fairing that's only deployed once the dust settles? Et voila, no dust on the payload. You could probably even use a soft fairing (e.g. vinyl bag) that unzips or whatever, if you need to save on weight..

          Actually the Mars Pathfinder(MER) rover mission EDL sequence is basically what you described. see here [youtube.com] for the video animation with explanation it's quite informative.

          For comparison here [youtube.com] is the video with explanation of the Mars Curiosity(MSL) EDL sequence.
          Here [youtube.com] is the full animation complete with cruise stage without narration or explanations.

          Also notice in the MER video how they still keep the retro rockets away from the landing site.

    • They are actually accomplishing something, besides cost overruns.

      I guess I imagined all those rovers that NASA successfully landed on Mars.

      What has NASA done since the 60's?

      You mean apart from Hubble, many mars rovers, Dawn, Kepler, the X43, and a bunch of other stuff?

      Fucked up the concept of a Reusable Space Plane

      Firstly, space is hard. Secondly, the shuttle had one of the best safety records of all rockets. If you look at the number of passengers lost versus the number carried it did very well.

    • by DanDD ( 1857066 )

      NASA didn't want SLS, Congress did.

      After the disaster that was the Lockheed X-33, NASA crafted a competition between private companies to launch cargo to the ISS. SpaceX and Orbital (now Northrop) won.

      NASA basically funded and fueled the development of SpaceX.

      So instead of venting at NASA, turn your anger and frustration to Congress.

  • Mars EDL is hard. (Score:5, Informative)

    by Anonymous Coward on Friday November 23, 2018 @10:59AM (#57688508)

    Thus far, NASA is the only organization to have much luck with Mars EDL.

    There were a series of Soviet probes in the 1960's and 70's, but the only one to live on the surface was Mars 3, and then only for 20 seconds before it stopped. They also had two probes in the late 1980's, Phobos 1 and 2, but both quit before successfully landing on Phobos. Also their Phobos-Grunt mission in 2011 failed. They did have some luck with flyby missions however.

    Likewise Europe's Beagle 2 lander was never heard from again after it touched down on Mars. However the orbiter portion of the mission worked. Europe's 2016 Schiaparelli lander attempt also failed before touchdown and was never heard from again.

    NASA had the first full lander success (beyond a few seconds of operation) with Viking 1 and 2 in 1975. Since then they've had a few failures such as the Mars Climate Observer and Mars Polar Lander, but many successes too, even including rovers. NASA seems to be the only space exploration organization adept at landing probes on Mars and making them work. That's no guarantee however, and there are many, many things that can go wrong, some of them unpredictable.

    Mars EDL is hard.

    • Re:Mars EDL is hard. (Score:4, Informative)

      by Anonymous Coward on Friday November 23, 2018 @11:26AM (#57688626)

      The term "EDL" is not said anywhere but your own comment, so it would help if you defined what "EDL" meant at the beginning of your text or even write the long non-acronym version in your comment title. Otherwise everyone who's not a space enthusiast has to look up the acronym to know what it means.

      E.D.L. = Entry, Descent, and Landing.

  • video (Score:5, Informative)

    by necro81 ( 917438 ) on Friday November 23, 2018 @11:04AM (#57688534) Journal
    Lockheed Martin has produced an animation of the entry descent and landing [youtube.com]. Go ahead and watch it, once, then forget about it. It unfortunately is not nearly as informative as, say, the 7 Minutes of Terror [youtube.com] video from Curiosity, or the whimsical bounce landing [youtube.com] from Spirit and Opportunity.
  • by Anonymous Coward

    Reentry heating is primarily caused by rapid compression of the air caused by the speeding vehicle. A bottle of aerosol gets cold when its contents are released and decompressed. Well, the reverse process of compression causes heat to be emitted. And that's what causes most of the heating during reentry, not friction.

    https://en.wikipedia.org/wiki/Atmospheric_entry

  • NASA likes to try to force requirements on others that they don't apply to themselves.

    Commercial crew MUST have less than a failure rate of less than 1/270 (loss of Mission -- not necessarily loss of crew) but Shuttle could fly with an estimated chance of failure and crew loss almost 10 times worse.

    CCS needs to have multiple test flights but SLS 1b will be deemed to be safe to put astronauts in on it's first flight (just like the Shuttle).

    When Space-X was planning on sending a Dragon to Mars using Falcon He

    • Probably by using the same bioburden reduction technique that most of the instruments on this mission go through: dry heat microbial reduction [pposs.org].
      • by phayes ( 202222 )

        Many thanks, very informative.

        However, the presentation is essentially how to sterilise surfaces, assemblies and instruments which seems poorly adapted to ensuring that a reconstituted biological insulator (crushed cork) which will end up degrading on Mars is as sterile as they claim. I may be off base but Nasa's proven tendency to absolve itself of inconvenient rules it wants others to apply now makes many doubt their application.

    • by Agripa ( 139780 )

      When NASA found that the Space Shuttle's main engines returned with cracked turbine blades, they redefined this from a failure to a maintenance issue. But if the Merlin engines in SpaceX's Falcon 9 return with cracked turbine blades, it is a failure.

  • First a Tesla Roadster is launched into space, and now NASA has landed a Honda Insight.

    These car ads keep upping the ante.

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