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Hayabusa Probe Arrives at Destination

Posted by ScuttleMonkey on from the we-dont-do-nearly-enough-probing dept.

david.given writes "The Japanese space probe Hayabusa has just arrived at its destination, the asteroid Itokawa, and is taking pictures. The largely autonomous ion-drive powered vehicle was launched in 2003 and was supposed to have arrived last year, but a solar flare damaged the solar panels causing a reduction in power. It will study the asteroid for two months before collecting a sample from the surface and departing for Earth, which it should reach in 2007. It's a pity that NASA's asteroid rover, which Hayabusa was going to drop off, got cancelled due to budgetry constraints..."

7 of 157 comments (clear)

  1. Typo by lheal · · Score: 2, Informative

    "its name". Sorry.

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    Raise your children as if you were teaching them to raise your grandchildren, because you are.
  2. Re:Asteroids full of life? by ReformedExCon · · Score: 2, Informative

    Atoms compose elements. A material that is composed of only one type of atom is called an element. Atoms are measured by the number of protons make up their nucleus. This number is called its "atomic number". Hydrogen has 1 proton in its nucleus, Helium has 2, and the count goes up from there.

    Now, we have identified all elements from 1 proton-nuclei (Hydrogen) through 112 proton-nuclei (Ununbium).

    It is theoretically possible that there are other elements that exist in space that we haven't found yet. They would have to be larger than 112 protons per nucleus, though. In our surrounding vacinity, it is highly unlikely that we would find something like that.

    --
    Jesus saved me from my past. He can save you as well.
  3. Re:Asteroids full of life? by mtaht · · Score: 5, Informative

    Hayabusa includes the Minerva hopper - gravity on asteroids is so slight that you can get around on springs - no rockets or NASA rovers required. That's the key - that's why planetary exploration makes so little sense - when you can get to an asteroid and mine it - and return for a small fraction of the delta-V required to get back from the moon, or Mars.

  4. Re:Asteroids full of life? by ReformedExCon · · Score: 2, Informative

    Mostly because they are created through heavy-element fusion (Ca and U in the case of Uub) and the resulting element decays into lower-atomic number elements in microseconds.

    So we would need to find some place hospitable for fusion (maybe the Sun) and full of heavy elements (maybe not the Sun).

    --
    Jesus saved me from my past. He can save you as well.
  5. Re:Grasping at straws... by Graymalkin · · Score: 4, Informative

    There's lots of good reasons to study deep space objects like asteroids and comets. Some of these are purely scientific while others are far more practical. Finding the exact composition of an asteroid for instance helps tell us where in the solar system it formed. Knowing where it began existance and comparing that position to its current one gives us clues on how the solar system has evolved from its accretion disk state. Studying asteroids up close also lets us test our theories on planetary formation, if an asteroid of a particular class is expected to have a particular composition and indeed does it lends weight to that formation theory. It also provides ground truth for other forms of observation and measurement.

    From a practical standpoint it is highly beneficial to know what asteroids are made out of. They're prime targets for space mining ventures at some point. Unlike materials mined from the Moon or Mars there's very little surface gravity to fight to get the material from the asteroid back to Earth. Hence it would be far easier to grab raw silicon or some such off a NEA and return it to Earth than get it off the Moon.

    It also pays off to practice sending craft to rendevous with deep space objects. While current missions are exploratory, at some point they might be defensive. If we see an Earth crossing comet or asteroid in enough time there's a good chance we can alter its trajectory or outright destroy it (if its small enough) if we can successfully put spacecraft in striking distance of it. It is desirable to have a lot of people well versed in that sort of mission. It's also another area where knowing the composition of such objects is useful. Knowing what would be needed to destroy or deflect such an object is much easier when you know how it is going to behave. A rocky dense asteroid will act far differently than a loosely clumped dustball when hit with a nuclear blast.

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    I'm a loner Dottie, a Rebel.
  6. Re:My tax refund is no budgetary constraint by Rick+Richardson · · Score: 2, Informative

    The Planetary Society

    NASA Cancels Rover on Joint Japan-US Asteroid Mission

    November 3, 2000

    NASA has canceled the development of a miniature rover, which would have been part of the U.S. contribution to a Japanese mission to an asteroid in September, 2005. The primary reasons for the cancellation were rising costs and weight.

    A Previous President.

  7. Re:Any country anywhere, this is cool. by Ironsides · · Score: 2, Informative

    s an aside, to Japanese spacecraft have particular trouble with solar flares? Or just horrible luck? Didn't they have a Mars probe stagger past that planet but not make orbit for about the same reasons?

    Wiki link on Radiation Hardening

    Basically, it's not just japan that has the problem, it's everyone. Anything in earth orbit is partially protected by the earths magnetic field. The other thing is that you have to be in the path of the flare, this probe was just unlucky. The mars rovers and others would have problems if they were hit.

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    Fly me to the moon Let me sing among those stars Let me see what spring is like On jupiter and mars