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Space Technology

Fascinating Rosetta Image Captures Philae's Comet Bounce 69

mpicpp points out that high-resolution pictures have been released of Philae's landing. "The hunt for Rosetta's lost lander Philae is gaining steam as scientists pore over images from above the comet that may help reveal its final location. The ESA released an image Monday taken by Rosetta's OSIRIS camera showing Philae's first bounce on the comet. The mosaic includes a series of pictures tracking the lander descending toward the comet, the initial touchdown point and then an image of the lander moving east. 'The imaging team is confident that combining the CONSERT ranging data with OSIRIS and navcam images from the orbiter and images from near the surface and on it from Philae's ROLIS and CIVA cameras will soon reveal the lander's whereabouts,' says the ESA."
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Fascinating Rosetta Image Captures Philae's Comet Bounce

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  • Just hire a pinball wizard to figure it all out.

  • by Anonymous Coward

    Never put 20 inch rims on your lander.

  • by DigitAl56K ( 805623 ) on Monday November 17, 2014 @04:17PM (#48405611)

    I haven't really been following this too closely so this may be entirely impossible, but if Philae is located, could Rosetta be positioned to reflect enough sunlight onto Philae to help power it?

    • by Anonymous Coward

      Even if Rosetta could be used as a mirror, which I doubt, it is probably far too small to do that efficiently.
      Also, assuming that you could move Rosetta very close to the comet to reflect enough light then it would be subject to its gravity.
      This is a small force but Rosetta would not be able to stay perfectly stationnary so the effect would not last for very long.

    • by Anonymous Coward on Monday November 17, 2014 @04:54PM (#48405961)
      That would consume a lot of fuel on Rosetta to keep it constantly pointed, and even then it would only illuminate the probe for a part of the day. The orbiter has priority in the mission (a lot of things were cut from the lander design to make the orbiter better, as it has more instruments central to the main goals), so that would be sacrificing the high priority component for the lower priority component, assuming it would work (the amount of reflection you would get off solar panels would either be weak, or involve using angles that would mean Rosetta gets almost no power).
      • I think you'd be better off sending Bruce Willis and a drill. Pull one of the Shuttles out of retirement, get J.J. Abrams to direct the thing and there is a chance that it would work out.

      • So a geostationary orbit over philae is out of the question? It wouldnt take an enourmous amount of material and a little optics to focus some photonics down on our little lander. I wouldnt be surprised if such mechanics was proposed back in the planning stages.
    • Asked and answered (although I'd need hours to find the tweet with the answer by the ESA to this exact question)

      The answer was:
      "No, because solar panels are done to absorb light, not reflect it."

  • by Anonymous Coward

    Imagine millions of years from now if some civilization come upon this asteroid, and their awe and astonishment when they find this forgotten, dusty satellite, resting in the shadows beneath a crevice.

  • East. Now in space.

    • by jfengel ( 409917 )

      Well, yeah. The comet rotates. The direction of its rotation is east. It's as good a coordinate system as any.

    • East. Now in space.

      It has always been in space, it is the rotational direction where the sun rises.

      • I'm just going to hazard a guess and say that the cardinal directions have to do with the magnetic field of the body itself. At least, that's what I always thought growing up.

        i.e. If we were to go to Mars, we'd define the poles as North and South (not sure if there are specific characteristics or if we just pick randomly), then define East/West based on that.

        This comet probably doesn't have a magnetic field though.

      • ... except on Discworld [wikipedia.org] where:

        "Cardinal directions within the Discworld are not given as North, South, East and West, but rather as directions relating to the disc itself: Hubward (towards the centre), Rimward (away from the centre) and to a lesser extent, turnwise (direction of the disc's rotation) and widdershins."

      • East. Now in space.

        It has always been in space, it is the rotational direction where the sun rises.

        I thought the sun stayed more or less in the same place.

      • by Trogre ( 513942 )

        What if it is spinning on more than one axis, ie tumbling? The direction where the sun rises for a given point on the comet will change all the time.

        I have no idea if the comet is actually doing this, but I imagine that being a scenario where computing "east" being rather difficult.

        • What if it is spinning on more than one axis, ie tumbling? The direction where the sun rises for a given point on the comet will change all the time.

          I have no idea if the comet is actually doing this, but I imagine that being a scenario where computing "east" being rather difficult.

          A ball at least can only rotate around one axis (any superposition of two rotations can be described as a single combined rotation), but the poster above me had the better answer. East is the direction of the rotation, it just happens to also be where everything stationary or far away that is not constantly visible would rise.

        • I checked that for one of the previous posts: http://blogs.esa.int/rosetta/2... [esa.int] lists the declination and ascension of its axis of rotation so the wobble must be modest.

          And here's asteroid Toutasis. It wobbles. http://www.solarviews.com/raw/... [solarviews.com]

      • It has always been in space, it is the rotational direction where the sun rises.

        Don't think though. East is basically Right on the pictures, based on Rosetta (camera) direction.

  • by Anonymous Coward

    And listen for the shouts of the perpetually outraged?

As you will see, I told them, in no uncertain terms, to see Figure one. -- Dave "First Strike" Pare

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