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GOCE Satellite Is Falling To Earth But Nobody Knows Where It Will Land

Posted by Unknown on from the coming-to-a-roof-near-you dept.

Virtucon writes "The Gravity field and steady-state Ocean Circulation Explorer or GOCE Satellite is expected to fall to Earth this weekend. It weighs over a ton and unfortunately the Scientists don't exactly know where it will land. You can track it here. It should re-enter sometime between Sunday night and Monday morning. Makr Hopkins, chair of the National Society's Executive Committee said: 'The satellite is one of the few satellites in a Polar Orbit. Consequently, it could land almost anywhere.' The GOCE mission was to create an accurate gravity map of the Earth."

8 of 122 comments (clear)

  1. The tracking website is down... by ClaraBow · · Score: 5, Funny

    I"m sleeping in the basement tonight!

    1. Re:The tracking website is down... by Anonymous Coward · · Score: 5, Funny

      And that's news? :)

  2. Use the map by david999 · · Score: 5, Funny

    You would think they could use the gravity map the satellite was creating to predict where the satellite would fall.....

    1. Re:Use the map by Brad1138 · · Score: 5, Funny

      I know not of this "Gravity" you speak of, but "Intelligent falling" is hard to predict.

      --
      If you could reason with religious people, there would be no religious people
  3. Re:Legal aspect by ColdWetDog · · Score: 5, Funny

    Well, it all depends.

    If it lands in the US, it could be considered a lawsuit.
    If it lands on South Korea, it could be construed as a blow from the Sacred Unicorn of the North.
    If it lands in Russia, it will end up on You Tube for weeks.

    If it lands anywhere else, it will be Obama's fault.

    --
    Faster! Faster! Faster would be better!
  4. Re:fall to Earth by Toad-san · · Score: 5, Insightful

    "The octagonal, 1100-kg satellite with a cross-sectional area of only 1m is configured to keep aerodynamic drag and torque to an absolute minimum. GOCE is symmetrical about its flight direction and two winglets provide additional aerodynamic stability. "

    She might just penetrate like a spear, with the front burning away as she slows down. Sounds like she's built very solidly as well. So we should still have a nice big solid chunk of debris for impact. Possibly even salvageable for the museums!

    But I'm afraid sleeping in your basement won't make a whole lot of difference.

  5. Re:fall to Earth by qvatch · · Score: 5, Informative

    Some, but not all of it. http://www.spaceflight101.com/goce-re-entry.html : With its fins and aerodynamic shape, GOCE will maintain a stable position in orbit as it approaches entry. During entry, the spacecraft will likely remain in that position for the initial phase of re-entry until it breaks up. Following the destruction of the spacecraft, most of its components will harmlessly burn up in the atmosphere. However, it is known that about 20 to 40% of a re-entering satellite's total mass reach Earth's surface. Dense components of satellites usually impact 800 to 1,300 Kilometers downrange from the Orbital Decay Point. Their journey back to Earth is strongly influenced by atmospheric properties like crosswinds that play a major role during atmospheric descent.

  6. Re:Define "irony" by Deadstick · · Score: 5, Informative

    What Immerman said. A satellite deals with gravity just peachy, but air kills it.

    No artificial satellite is completely outside the atmosphere. There are still traces of air even hundreds of miles out, and every time a satellite hits an air molecule it loses an eensy-teensy bit of energy. Each loss makes the orbit a little bit lower, and a little bit faster. (Yes, orbital mechanics is a curious realm where you can slow down by applying thrust and speed up by applying the brakes.) The lower it gets, the more often it hits a molecule, and the energy loss gradually begins to snowball.

    You can't predict the precise impact point without precise knowledge of the air density the satellite is encountering, and we don't have that information because it varies with all manner of factors, like solar wind and terrestrial weather. The principal means of prediction is the change in the length of an orbit. When you start seeing a measurable time difference from one orbit to the next, things are starting to happen.At that point, you can predict the time of impact with a precision on the order of weeks, and as time goes on you can narrow it down further.

    Right now, we know when GOCE will come in give or take a handful of hours -- and since it can circle the world a couple of times in that interval, we have very little idea of where it will hit. As time passes, the error factor shrinks...when Skylab came in, NASA knew it would hit "somewhere in Australia" three or four hours before it hit.

    An intentional reentry is different, because you use a retro-rocket to dump a nice big packet of energy and skip right over the protracted decay time, and make it land where you want.

    In the interest of perspective, keep in mind that Nature throws rocks at us from space all the time -- meteors big enough to survive the trip through the atmosphere hit the earth dozens of times per day. Yet there are only a handful of cases on record where a person was injured, or even saw one hit -- simply because you and I and all the other people cover a VERY tiny fraction of the earth's surface. We are little bitty spots on a great big dartboard.