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Space Science

ESA Launches GOCE To Map Earth's Gravity 81

DSG2 sends in an ESA press release which reads in part: "This afternoon, the Gravity field and steady-state Ocean Circulation Explorer (GOCE) satellite developed by the European Space Agency was lofted into a near-Sun-synchronous, low Earth orbit by a Rockot launcher lifting off from the Plesetsk cosmodrome in northern Russia. GOCE is the first of a new family of ESA satellites designed to study our planet and its environment in order to enhance our knowledge and understanding of Earth-system processes and their evolution, to enable us to address the challenges of global climate change. In particular, GOCE will measure the minute differences in the Earth's gravity field around the globe." One consequence of mapping the planet's geoid in finer detail is that ocean currents can be limned more accurately. This BBC article from 2007 goes into some detail about this application.
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ESA Launches GOCE To Map Earth's Gravity

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  • by MrEricSir ( 398214 ) on Tuesday March 17, 2009 @04:16PM (#27232801) Homepage

    There's that word again; "heavy." Why are things so heavy in the future? Is there a problem with the earth's gravitational pull?

    • Why not use a unfeasibly massive cloud of Internet grid connected next generation aspect oriented sensors instead? Spam everyone on the Internet, and ask them in which direction gravity is manifesting itself in their part of the world. I think most respondents will reply "down."

      On the serious side, serious scientists have proposed using laptop accelerometers to detect earthquakes: http://www.wired.com/science/planetearth/news/2008/03/quake_network [wired.com]

      Maybe something free on the iPhone App Store could help

      • Speaking of earthquakes, we had a small tremor a week or so ago here in Melbourne, Australia. We just had another one a short while ago. I'm sure there are people on here who live where they get earth tremors all the time but it's unusual to have two in a short space of time down here.
  • height (Score:3, Interesting)

    by Silm ( 1135973 ) on Tuesday March 17, 2009 @04:18PM (#27232843)
    what really interests me is the fact that this satellite in such a low orbit that it actually has wings and an aerodynamic body to cope with the small amounts of air on that height. Those wings combined with the ion motor's onboard make it almost a plane/ satellite hybrid.
    • Re:height (Score:5, Informative)

      by TorKlingberg ( 599697 ) on Tuesday March 17, 2009 @04:40PM (#27233233)

      It actually flies "sideways" though. The upper side of the two big wings always face the sun. The two smaller wings at the back are for aerodynamic stability.

      While I'm here, there is more information at the ESA [esa.int] GOCE [esa.int] sites [esa.int].

    • The atmosphere remains a fairly significant factor in satellite design up to altitudes of about 1000km (depending on where you are in the solar cycle; as Sun activity increases, the atmosphere expands). However, your premise remains.. 250km is a VLEO (Very Low Earth Orbit).

      Aikon-

  • this and that (Score:4, Interesting)

    by girlintraining ( 1395911 ) on Tuesday March 17, 2009 @04:27PM (#27233013)

    Article title: ESA Launches GOCE To Map Earth's Gravity
    Article quote: ...to enable us to address the challenges of global climate change.

    Great. Now we're going to have to start ejecting people into orbit because they stayed under their carbon credits quota, but they had too much gravitational pull and that's damaging the environment. I can just see the green movement in five years: "Stop warping spacetime! Excercise! And screw the whales."

  • by Thagg ( 9904 ) <thadbeier@gmail.com> on Tuesday March 17, 2009 @04:34PM (#27233125) Journal

    GOCE is a gravity measuring satellite -- the spiritual successor to the amazing GRACE pair of satellites from a few years ago.

    GRACE works by flying two satellites in the same orbit, one a few dozen miles ahead of the other. By monitoring the distance between the satellites with laser rangefinders, one can measure how strong gravity is -- the more gravity, the faster the satellite goes, so the distance between the satellites grows until the second one reaches the same area. This was the state-of-the-art, and GRACE made some amazing measurements. It was able, for instance, to measure the amount of extra groundwater during flooding along the Mississippi.

    But GOCE does it all with one satellite. Where the baseline for GRACE was many miles, for GOCE it is just 50 cm.

    Now, if you think about it, in any satellite, the amount of gravity you would feel is zero...or at least, very very close to zero, as you are orbiting inertially. But, really, gravity is only zero right at the center of mass of the satellite. You'd feel a tiny amount of acceleration the further you go. As you go toward the center of the earth, you would be in a lower orbit, and you would be pulled down with respect to the satellite.

    GOCE measures this microgravity to rediculous precision. By measuring the difference in gravity affecting two test masses 50 cm apart, it can measure how strong gravity is at that point. It should have much better accuracy, and far better resolution, than GRACE.

    GOCE is amazing in other ways, too. It flies very low, to get better resolution. So, it has fins! A satellite with fins, to keep it pointing along the direction of travel. Because there is some tiny amount of air drag at the altitude it is flying, GOCE has a tiny xenon ion engine pushing it along to keep it at the same altitude, and to keep the air drag on the satellite from overwhelming the gravity measurement.

    Hats off to ESA, this is an amazing machine!

    • >Now, if you think about it, in any satellite, the amount of gravity you would feel is zero...or at least, very very close to zero, as you are orbiting inertially.

      There is plenty of gravity, if there wasn't, the sat would be flying off into deep space.

      • The amount of gravity you would feel

        • I would argue that "feel" in the sense of human nerves saying "this way is down" is irrelevant, given that we are talking about a satellite, and the satellite most certainly "feels" the effects of gravity by staying in orbit.

    • by Zoxed ( 676559 )

      > GOCE is a gravity measuring satellite -- the spiritual successor to the amazing GRACE pair of satellites from a few years ago.

      Technically it is not measuring gravity: it measures *variations* in the gravitational field: basically from it's known orbit it detects incredibly small delta-Vs in it's path.

    • by khayman80 ( 824400 ) on Tuesday March 17, 2009 @07:37PM (#27235503) Homepage Journal

      I am a physicist working with GRACE data, and I feel the need to nitpick. GRACE uses a microwave ranging system, not a laser ranging system. The increased accuracy of a laser ranging system wouldn't be useful because there are so many other sources of noise, but it is being considered for GRACE 2.

      Also, the baseline between the GRACE satellites is more than a couple dozen miles. On average, GRACE A and B are 220 km apart.

      GOCE is an amazing satellite, and its low altitude combined with its ion engine (to precisely compensate for drag) will increase the resolution of our STATIC (i.e. not time dependent) gravity field maps. But it can't replace GRACE's measurements of the changing gravity field. GRACE has provided independent measurements [colorado.edu] of the Greenland ice sheet melt and helped to correct water storage models, which underestimated [harvard.edu] the 2005 Amazon drought.

      My research involves pushing GRACE's temporal resolution even further down. Rather than detecting annual signals or slowly varying linear mass changes (like ice sheet melt), I'm trying to measure the gravity changes from ocean tides. My preliminary results show that GRACE can detect gravity fluctuations from twice-daily tides, which means that it can be used to improve our ocean tide models. This helps oceanographers, but indirectly helps all gravimetry because tides are a source of noise even for static measurements of the earth's gravity field. Modelling the tides better can help to reduce this noise.

      GRACE isn't dead yet.

      • by Thagg ( 9904 )

        Thanks...I suppose I was in GOCE rapture this morning when I read about it, and I was more harsh than I should have been. It's good to hear about the work that you're doing, and that you're possibly going to do a GRACE2. What are the other new features of GRACE2 over GRACE?

        I love the apparent simplicity of GRACE -- I say apparent because I know there's a mountain of math between the distance measurements and the geoid data. Congratulations on your work, and keep it up!

        • What are the other new features of GRACE2 over GRACE?

          The "drag-free" concept that GOCE is using has been popular at the GRACE Science Team Meetings [utexas.edu]. This would allow GRACE's altitude to be lowered from its current ~500km (starting) altitude to something more like 200km. Lowering the altitude increases the spatial resolution because from very far away the Earth's gravity field looks exactly like a point mass's. The closer to the surface the satellite gets, the more of the extra features are revealed.

          A laser

    • By measuring the difference in gravity affecting two test masses 50 cm apart, it can measure how strong gravity is at that point.

      If the two masses are separated by 50 cm, as you say, gravity will pull on the nearer one very, very slightly stronger than it does on the farther one. If the masses were free to move, they'd be in separate orbits, with the outer one moving away from the inner one. As they are (I presume) tethered, there will be a force acting on that tether. This is, in fact, the same thing

  • by Star Particle ( 1409451 ) on Tuesday March 17, 2009 @04:37PM (#27233195)
    For 24 months, GOCE will collect three-dimensional gravity data all over the globe. The raw data will be processed on the ground to produce the most accurate map of the Earth's gravitational field to date and to refine the geoid: the actual reference shape of our planet. Precise knowledge of the geoid, which can be considered as the surface of an ideal global ocean at rest, will play a very important role in further study of our planet and, with any luck, by detecting subtle changes in gravitational potential, it will be able to provide mankind with its first indirect measurement of your girlfriend's mass.
  • ...knowledge and understanding of Earth-system processes and their evolution,...

    We all know that Evolution and Gravity are just theories and there's no concrete evidence that they exist. Okay? We also need to teach "Intelligent Downward Pull". There may be some intelligent force that really loves us and doesn't want us flying off into space - upon which we'd hit the Sun because it revolves around the Earth.

  • It's down.
  • Re: (Score:1, Flamebait)

    Comment removed based on user account deletion
  • Now if only we could launch a satellite to keep an eye on carbon...we did? What happened?
  • Comment removed based on user account deletion
    • Re: (Score:3, Interesting)

      by khayman80 ( 824400 )

      GRACE has found what many believe to be an ancient impact crater [agu.org] in Antarctica. It might have been responsible for splitting Antarctica away from Australia, and might have been responsible for the Permian extinction. The researchers note that it formed 260 million years ago- around the right time, and it was directly opposite to the usual culprit- the Siberian traps. It's possible that the impact sent shockwaves around the world, which converged on the antipodal point and triggered the Siberian traps.

      But th

      • by smoker2 ( 750216 )
        When talking about a Mars sized impact, there would be no crater. It would pretty much liquify the crust and homogenize the rock structure planet wide. The moon was probably formed before the earths surface was completely solidified anyway, if you take an impact as the likely formation method. The fact of the moons low density does give credence to the impact theory as it is composed of the less dense rocks that might have been knocked off the earth. The denser stuff like iron was already deeper in the eart
  • Half of the word in the name are ignored. They just picked a few letters that could make a sound.

    It's a crapronym! (c) 2009 Apeiron

    Crapronym - a kludge of an acronym that ignores the rules of abbreviation

    Look, if you can't give a project a name like, Percy or "The Gravity Observation Thing", at least go with an honest unpronounceable abbreviation. You can leave out the articles and prepositions if helps. But this is just laziness.

Some people manage by the book, even though they don't know who wrote the book or even what book.

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