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Space Science

Halloween Solar Storm Nearing Heliopause 187

Posted by CowboyNeal from the ridin'-the-storm-out dept.
PipianJ writes "Various sources are reporting that NASA has been tracking the Halloween solar storms of last year as they head towards the end of the solar system and the beginning of interstellar space, the heliopause, in the near future. In related news, scientists now believe that it was solar storms that ripped water from Mars, causing it to be the dry barren wasteland it is today."
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Halloween Solar Storm Nearing Heliopause More

Halloween Solar Storm Nearing Heliopause

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  • How Exactly (Score:4, Interesting)

    by GiveMeLinux ( 713432 ) on Friday July 09, 2004 @12:22AM (#9649669)
    (for the astronomers in the crowd) ...would the solar storms "rip" all the water from the planet, and then where would it all go?

    • Re:How Exactly (Score:5, Informative)

      by akincisor ( 603833 ) on Friday July 09, 2004 @12:25AM (#9649685)
      Mars has very little atmosphere, and almost no protection from radiation. This renders the surface open to bombardment, and thanks to low gravity and low magnetism, the atmosphere leaks away into space. The article states that the water that might have been on mars 'boiled off' due to solar radiation.

      • Re:How Exactly (Score:3, Informative)

        by Bi()hazard ( 323405 )
        This is due to differences in how Mars formed. Irregularities in the field of primordial gas present in the solar system before the formation of planets occurred in such a way that the Earth arose from a hard metallic core rotating quickly, but Mars formed from a less dense and dynamic clump of matter. As a result the Earth has a spinning metallic core that generates a powerful magnetosphere and keeps the planet's mantle heated and molten, but Mars cooled long ago and has little magnetism.

        Mars, without a m

        • Re:How Exactly (Score:3, Informative)

          by DylanQuixote ( 538987 )
          Some far-out proposals suggest engineering a collision between Mars and one of its moons, such as Phobos or Deimos, in order to increase mass and introduce energy into the core.

          Truely far out, as I believe phobos and deimos much less massive than mars.

          if my calculations are right, 59 billion phoboses would equal about one mars.
          . and it would take 286 billion deimoses to equal one mars. they're really insignificant moons.

          • Re:How Exactly (Score:3, Interesting)

            by swv3752 ( 187722 )
            One plan would call for bombarding Mars with asteroids or maybe Jovian moons. The better plan is to airbake some ice asteroids through Mars's atmosphere. That will have three effects. Increase the amount of heat in the atmosphere, add water, and a byproduct is that some of the water will breakdown into hydrogen and oxygen.
            • The better plan is to airbake some ice asteroids through Mars's atmosphere

              And where, exactly, are you getting these magic ice asteroids? Your arse?

              Hmm... I bet when Iceman gets clogged up, he shoots ice asteroids out his arse.

              • And where, exactly, are you getting these magic ice asteroids? Your arse?

                From space, more specifically from the Asteroid Belt, of course. Why would you search asteroids from anyones arse ? Hmm... On second thought, I don't want to know.

                AFAIK most comets are basically water ice with some dirt mixed in.

                • From space, more specifically from the Asteroid Belt, of course. Those are made of ice, all of a sudden? Since when? This page [nineplanets.org] seems to say otherwise?

                  Even if they were made of ice -- how did you plan on making these crash into Mars? More magic arse-rockets? How much energy is it going to take to go to the asteroid belt (more than it takes to get to Mars, unless you want to take 5 years getting there...). Then how much to slow down the 'roid enough to make it go towards Mars?

                  AFAIK most comets are ba

        • Re:How Exactly (Score:3, Interesting)

          by Anonymous Coward
          Who is the moron who gave this a +5 Informative? This is nothing but a giant morass of misinformation and total nonsense, deserving - at best - a +1 Eco-parody.

          As a result the Earth has a spinning metallic core that generates a powerful magnetosphere and keeps the planet's mantle heated and molten, but Mars cooled long ago and has little magnetism.

          This is - at best - a guess. The truth is we don't really know why our magnetosphere is stronger than Mars', or even why it exists! We also have no reason to

          • Who is the moron who gave this a +5 Informative? This is nothing but a giant morass of misinformation and total nonsense, deserving - at best - a +1 Eco-parody.

            When in doubt, make a personal attack.

            As a result the Earth has a spinning metallic core that generates a powerful magnetosphere and keeps the planet's mantle heated and molten, but Mars cooled long ago and has little magnetism.

            This is - at best - a guess. The truth is we don't really know why our magnetosphere is stronger than Mars', or even

        • Re:How Exactly (Score:4, Informative)

          by iwadasn ( 742362 ) on Friday July 09, 2004 @09:44AM (#9651446)

          There's more too it than that...

          The primary difference is in the masses. The Earth is much more massive, so it has more gravity. That allows it to keep more gasses in its atmosphere. O2 for instance would easily get escape velocity on mars and leak out. So mars's atmosphere leaked out due to low gravity, this is the first step in the problem.

          Secondly, the earth (by virtue of being heavier) has a lower surface area to volume ratio. So it loses heat slower with time. That is why our core is still molten. Mars probably had a molten core at one time, but it cooled off, and that was the end.

          In addition, because the earth was heavier it got more heat from collisions (due to greater gravity) to begin with. So we not only keep heat more efficiently, we also started with more heat per unit of volume.

          Also, much of the earth's heat is believed to be produced by the decay of radioactive elements, once again the lower surface are to volume (mass actually) ratio helps to keep that heat in, which keeps our core molten.

          The liquid core that the earth still has (Venus has one too) produces the magnetic field. Our gravity is greater so most of the atmosphere can't escape, and thus we're relatively radiation hardened. In addition, the oxygen in the atmosphere (formed by primitive life) efficiently captures hydrogen (to form water) and thus keeps the hydrogen from leaking out. The solar winds deliver additional hydrogen (nicely funnelled into the poles) that replaces anything that was lost.

          There really is a lot to it, but the basic factors are...

          1) The earth is larger, so the core is still hot and we keep our atmosphere. Hot core generates magnetic shielding.

          2) The earth has lots of oxygen (due to life), which traps hydrogen and keeps the surface cool because it is not a greenhouse gas. Oxygen also produces ozone that adds extra shielding. Mars is too light to keep oxygen even if we did generate it to begin with.

          • Secondly, the earth (by virtue of being heavier) has a lower surface area to volume ratio


            Isn't the ratio of surface area to volume for a sphere a constant, i.e., both dependent on the diameter? Did you mean "surface area to mass ratio"?


            volume =(4/3) [pi] r^{3}


            surface area = 4 [pi] r^{2} (a derivative of the volume)


            Nothing there indicating it will change due to the contents being heavier.

            • Re:How Exactly (Score:2, Informative)

              by iwadasn ( 742362 )

              Slight misstatement. If you assume that the density is about the same (fairly reasonable), then the mass is proportional to the volume. A heavier planet has a larger volume (once again, since earth and mars are both rocky planets), and thus a lower surface area to volume ratio.

              So the surface area to volume ratio is...

              S/V = 3/r

              but (if the densities are the same) (4/3)[pi]r^3 = M

              and thus r = ((3/4[pi])M)^1/3

              And thus S/V = 1 / (M/4[pi])^1/3

              and this decreases with increasing mass, though not that quickly.
        • Does this mean Mt Olympus is an extinct volcano- if Mars is cooled off and geologically dead, then there wouldn't be any new molten magma?
          • > if Mars is cooled off and geologically dead

            I'm just guessing here, but I think it is cooling off, and not quite geologically dead yet, but cool enough to start losing its gasses.

    • Re:How Exactly (Score:5, Informative)

      by SeanTobin ( 138474 ) * <byrdhuntr AT hotmail DOT com> on Friday July 09, 2004 @12:26AM (#9649688)
      The theory is fairly simple. You have a planet with little or no magnetic field to deflect the solar wind. Add to that a relatively weak gravatational field to keep the gasses stuck to the planet and you have this situation..

      Water vapor ends up in the upper atmosphere. High speed solar wind strikes the atmosphere and carries it away. This results in lower atmospheric pressure leading to an increased amount of liquid water turing to vapor and being carried away as well.

      As far as where it would go, its generally carried "out" in the direction of the solar wind.
      • I suspect that Mars *did* once have a magnetic field. My guess is that some really *big* impact caused sufficient vulcanism to blow enough magma out to sap the energy from the core and stop the magneto.

        Once that was gone it would have been a matter of time before the solar wind removed the atmosphere and water.

        • Re:How Exactly (Score:5, Informative)

          by Detritus ( 11846 ) on Friday July 09, 2004 @01:11AM (#9649852) Homepage
          My astronomy professor believed that the basic problem was the low mass of Mars. This resulted in a high surface/volume ratio compared to the Earth, causing Mars to cool off more quickly and the interior of the planet solidified, shutting off its magnetic field. Combined with a lower escape velocity, this allowed most of the atmosphere to leak out into space and be stripped away by the solar wind.
          • But did water form on Mars in the first place ? It would take millions of years for water to be formed...during all that time, the solar winds would have not allowed water to be formed.

            Maybe Mars had water and a thick atmosphere...then a planetary event (like a strike with a huge asteroid) ripped its atmosphere apart, and then water "evaporated".

            • The question of how the water formed on the surface of Mars in the first place and how it left the planet are not shrouded in the funky current theories but in pretty well determined facts.

              First the water did not leave mars entirely and secondly what did leave left because of a basic law of physics. The molecular spin net mass velocity of water is above the escape velocity of mars. This means several things. A Orbit may be prescribed about any ray extending from the center of mass of an object and if a

          • Re:How Exactly (Score:3, Interesting)

            by niktemadur ( 793971 )
            Here's another likely culprit for the lack of a magnetic field/shield: Earth has a HUGE satellite, the Moon, whereas Mars has two tiny, potato-shaped asteroidlets, Phobos and Deimos.

            It is the interaction between Earth and Moon that creates the magnetic shield we have.

            First off, we have tidal interaction, which gives Earth nice strong tugs, maintaining a molten state underneath us, thereby creating/enhancing a magnetic field. As to why the Moon is not molten inside, its' origins and composition will have

        • Re:How Exactly (Score:4, Informative)

          by Graff ( 532189 ) on Friday July 09, 2004 @01:15AM (#9649865)
          I suspect that Mars *did* once have a magnetic field. My guess is that some really *big* impact caused sufficient vulcanism to blow enough magma out to sap the energy from the core and stop the magneto.

          One of the theories is that since Mars is smaller than Earth it may have cooled off faster. Since the magnetic field of a planet is generated by the spinning of the core if a planet were to cool sufficiently the core would slow down (the speeds of the core and the crust would begin to match) and thus the magnetic field would weaken.

          This theory is supported by the fact that there is little or no tectonic activity currently occurring on Mars, although there certainly has been tectonic activity in the past.

    • Re:How Exactly (Score:5, Funny)

      by orthogonal ( 588627 ) on Friday July 09, 2004 @01:22AM (#9649889) Journal
      (for the astronomers in the crowd) ...would the solar storms "rip" all the water from the planet, and then where would it all go?

      "Solar storms". That's what they want you to believe.

      But the Fremen know it was the giant Sandworms.

    • There isn't concensus on where the water have gone, the only thing we know for sure is, there was a lot of water before, and there isn't now.

      I work closely with the Mars scientists at Copenhagen University. They designed the magnets on the Mars Rovers. If you ask any one of those for their official oppinion on where the water went, most likely they will just say "erhhh?!", because really nobody has clue. Some calculations conclude that even with the weak magnetic field, the boiling off of water would no

      • Duh. It was ejected into space.

        Space is a giant vacuum. Material sucked up into space and carried away at speeds approaching that of the light tend to "disappear." It didn't really disappear, of course. It's either joined the mishmash of matter between solar systems, or has slowed down and joined the orbit of another.

  • AAAHHHH!!! (Score:3, Funny)

    by Anonymous Coward on Friday July 09, 2004 @12:23AM (#9649672)
    Better train some more terranaughts fast!

  • Wrong link in article (Score:5, Informative)

    by lingqi ( 577227 ) on Friday July 09, 2004 @12:28AM (#9649698) Journal
    go here [nasa.gov] for cool animations.

  • The End? (Score:3, Funny)

    by The_Real_Nire ( 786847 ) on Friday July 09, 2004 @12:30AM (#9649707)
    The END of the solar system?!!

    We're doomed!!!!!

    oh just kidding, slashdot has been boring lately and you know it.

  • Solar Storms Destroyed Mars? (Score:4, Funny)

    by Illbay ( 700081 ) on Friday July 09, 2004 @12:43AM (#9649757) Journal
    "Scientists now believe that it was solar storms that ripped water from Mars, causing it to be the dry barren wasteland it is today."

    Nah. It was socialism.

    Before the socialist revolution there, it was a verdant paradise, and the playground of the solar system's wealthy.

    Now, it's Cuba without the palm trees.

    The Martians are hoping and praying that the NASA landers are harbingers of the new "Yanqui" economy.

  • Kim Stanley Robinson got it an bit wrong (Score:4, Insightful)

    by bigsteve@dstc ( 140392 ) on Friday July 09, 2004 @12:50AM (#9649780)
    Remember the Green / Blue Mars novels by Kim Stanley Robinson where they create an atmosphere on Mars? Well it looks like it wouldn't be viable without also finding a way to generate an Earth-like magnetic field.
    • Long-term, I suppose this is correct. However, providing it is possible to create an atmosphere, it should also be possible to maintain one as well. Radiation would always be a problem, atmosphere or no atmosphere. It makes you realize how convenient magnetic fields are at shielding radiation.

      But who knows? Maybe it's easier to terraform Venus, though there's that slow rotation period to worry about. Anyone have any guesses on how to speed up a planet? ;^)

      • Anyone have any guesses on how to speed up a planet? ;^)

        Hit it with another planet of course. Or you could hit it with something smaller than a planet but moving faster.

      • Re:Kim Stanley Robinson got it an bit wrong (Score:4, Informative)

        by lingqi ( 577227 ) on Friday July 09, 2004 @01:26AM (#9649905) Journal
        Erm, Venus has no magneto sphere either, you know.

        That said, since it does sport a huge iron core maybe if we spun the planet the magnetic field would come along too. Though it would be interesting to see what effect would it have on the earth's magneto sphere (magnetic tidal forces?). It would suck if earth's magneto sphere disappeared because of it.

        Though maybe we can send a team of crackpots to detonate some nukes in the core. Oh gosh that was a terrible movie. but hey! maybe we can do that for venus!

        • Re:Kim Stanley Robinson got it an bit wrong (Score:5, Informative)

          by Surazal ( 729 ) on Friday July 09, 2004 @02:25AM (#9650062) Homepage Journal
          Erm, Venus has no magneto sphere either, you know.
          Serves me for not looking up the specific facts.

          Link for explaining Venus's lack of a magnetosphere (it's pretty self-explanatory):
          http://www-ssc.igpp.ucla.edu/p ersonnel/russell/pap ers/venus_mag/

          The supposition by this article claims that Earth kept its magnetic bubble due to "stirring" of the core (most likely due to tidal forces from not having a tidal-locked rotation period, I would guess).

          So, increasing the rotation would be just the key I would think to introducing a magetic field. Of course, someone here also said that a small planet colliding with that planet would be the trick to increasing its rotation. Since the entire planet would be converted to magma as a result of that collision, I think that would be the perfect solution to creating a good magnetoshpere (thanks to the trusty dynamo effect).
    • Just host a million man [millionmanlan.com] LAN party at each pole and force everyone to use unshielded computer monitors, the magnetic field from all the electron beam deflector coils just might do it.

    • Re:Kim Stanley Robinson got it an bit wrong (Score:5, Interesting)

      by Graff ( 532189 ) on Friday July 09, 2004 @01:25AM (#9649900)
      Remember the Green / Blue Mars novels by Kim Stanley Robinson where they create an atmosphere on Mars? Well it looks like it wouldn't be viable without also finding a way to generate an Earth-like magnetic field.

      Not necessarily true. Yes, eventually Mars will lose most of its terraformed atmosphere and it will return to the state that it is currently in but that could take millions of years. We can certainly generate a ton more atmosphere than Mars loses and we can do so for a good, long time.

      Not only that but if we were really innovative we would redirect a few comets or similar objects into a close orbit around Mars, releasing them onto the planet in a planned manner and further bulking up the atmosphere. This may be a bit beyond our current technology but we should be able to do it fairly soon.

      By the time we are ready to terraform Mars we will almost definitely be able to do so.
      • I thought there'd be nuclear-powered robots with lasers melting the sand into giant greenhouses first. Greenhouses where we'd grow plants protected from bad radiation and solar storms. We could pump in CO2 from the existing atmosphere to stimulate their growth, venting some of the produced oxygen into a living area for a future manned mission.

        "ready" is a question of vision. Nuclear robots, lasers, giant greenhouses, autonomous processes, it's all uncharted territory but there's nothing stopping us from go
    • Okay, stupid question, particularly coming from a (rusty) electrical engineer, but would it be possible to generate a sufficiant magnetic field with a simple (supraconducting) wire running around the equator ? Or two smaller wires circling each pole ? How much power would be necessary to do that ?

  • Soo.. (Score:5, Interesting)

    by Anonymous Coward on Friday July 09, 2004 @01:03AM (#9649817)
    ..if the solar storms blew away water from mars upper atmosphere during a long period of time, which led to the drying of mars oceans, the same (but maybe in a lesser extent) should have happend to earth.

    Because of earths higher gravity, denser atmosphere and our magnetic field this effect might not at all have been that big, but over the billions of years it has probably made a noticeable decrease in earths oceans too?

    If we take a look at Venus, a planet we believe had as much water as earth in the past, we find that it has no water either - and no magnetic field but it has about the same gravity as earth and a denser atmosphere => it is quite likely that a magnetic field is much more important for a planet to keep its water, than its atmosphere and/or gravity.

    However, as I understand, during the period (several hundreds of years or more?) which the earths magnetic field changes polarity, which happends regularly, we have no magnetic "shield" and together with my statement that denser atmosphere and higher gravity than mars does not matter that much, earth should during this time also have lost some water in the same way as Mars/Venus?

    So what am I shooting at here? Well I think it is an interesting question wether we (planet earth) had more water 5 billion years ago, or if it is largely unchanged? Maybe earth was totally covered in water? Maybe we will only have half as much, or no, water in 5 billion years? Or is earth in fact increasing its water-mass by sucking up comets? Are there any such data/measurements?

    Maybe if we have such measurements from periods during which we had no magnetic field - we might be able to calculate the effects of solarwinds and thereby maybe evaluate this new Mars-theory plus maybe calculate wether earth might suffer the same destiny as Venus and Mars.

    (I think it is quite sad that we are surrounded by all these planets that once was easily terraformable but now they are all "dead". ..and we are next) :(

    • Re:Soo.. (Score:4, Insightful)

      by barawn ( 25691 ) on Friday July 09, 2004 @01:25AM (#9649901) Homepage
      ..if the solar storms blew away water from mars upper atmosphere during a long period of time, which led to the drying of mars oceans, the same (but maybe in a lesser extent) should have happend to earth.

      Mars has no magnetic field. Its core cooled off tremendously faster than Earth's, and so the magnetic field froze out.

      Earth, being more massive, also has a much smaller scale height, so that liquid water vapor extends to much smaller heights. Combine those two and the water vapor loss rate for Earth is tremendously less.

      Until the output of the Sun increases in a few hundred million years, the water cycle is stable. (Yes, a couple hundred million years - Earth will be out of the habitable zone *before* the Sun goes red giant).


      (I think it is quite sad that we are surrounded by all these planets that once was easily terraformable but now they are all "dead". ..and we are next) :(

      Well, yes - life requires energy, and the Sun is burning through it at an utterly incredible rate. Eventually it has to run out.

      Of course, that's several hundred million years from now, and if we're still stuck on this planet by then, we deserve to go extinct.

      If we really want a couple more, we could always move Venus out to Mars's orbit, and have Mars smash into it. Poof! Instant new Earth.
      • > we could always move Venus out to Mars's orbit, and have Mars smash into it. Poof! Instant new Earth.

        That's a very interesting use of the word "instant." I believe It would take hundreds of years for it to solidify again after becoming a ball of molten rock. Two planets colliding cause a little bit of friction...

        However, I like the point of your comment, it would be pretty cool to start smashing planets together & see what happens. We might want to test it outside our own solar system first, t

        • That's a very interesting use of the word "instant." I believe It would take hundreds of years for it to solidify again after becoming a ball of molten rock. Two planets colliding cause a little bit of friction...

          Millions of years, more likely!

          But as we've got hundreds of millions of years left, as long as we get to it in the next few million years, we should be fine. :)

          (I thought it was a more interesting use of the word "Poof".)
          • > Millions of years, more likely!

            I figured I was underestimating a lot, but didn't want to make wildly inaccurate statements. Guess I did anyway :)

            > (I thought it was a more interesting use of the word "Poof".)

            pooooooooooooooooooooooooooooo...ooooo...oooofff f. ..
      • I prefer the idea of making a fleet of massive spacecraft out of asteroid material, and then setting off to explore the rest of the Universe, albeit slowly.

        You don't really mind the journey to another solar system taking 40,000 years if you bring the rest of your civilization with you.

      • we could always move Venus out to Mars's orbit, and have Mars smash into it. Poof! Instant new Earth.

        "Hey, it worked for me!" -God

  • Not Solar Storms At All (Score:4, Funny)

    by Nom du Keyboard ( 633989 ) on Friday July 09, 2004 @01:05AM (#9649825)
    They think it was solar storms. I think it was patents. The Martians kept granting more and more ridiculous software patents until someone was allowed to patent water. And that person then collected it all up and that was the end of Mars as they knew it.

  • Clearly (Score:3, Funny)

    by tcd004 ( 134130 ) * on Friday July 09, 2004 @01:24AM (#9649897) Homepage
    we need to take out the Sun as soon as possible!

    That menace!
    • On top of that terrorists are undoubtedly planning to use prayer to increase the output of the sun to burn away all infidels.

      We cannot allow a Sun Worship Gap!!!
    • WASHINGTON, DC- Homeland Security official Tom Ridge came out publicly today to raise the alert level to red. "We have detailed information that the al-queda terrorist network plans to fly the sun into the white house. We will not allow this to happen. I mean, if anyone is gonna use the sun as a weapon, you can damn sure it's going to be us. In case of a solar attack, you can protect yourself with duct tape and sunscreen."
    • "For centuries Mankind has dreamed of destroying the sun." -- Montgomery Burns

  • mars solar storm movie (Score:5, Informative)

    by infonick ( 679715 ) * on Friday July 09, 2004 @01:51AM (#9649970) Homepage
    Were you disappointed by the movie not working? Two errors were in the link.

    This is the working link, [nasa.gov]

    And here's a link to the movie itself. [nasa.gov]

  • oh well (Score:2, Funny)

    by flacco ( 324089 )
    In related news, scientists now believe that it was solar storms that ripped water from Mars, causing it to be the dry barren wasteland it is today.

    damn! i was hoping to blame microsoft.

  • Except they discovered water on Mars. Apparently there's still quite a bit of it left there. It's not quite the dry place we thought it was.

  • The sun is a mass of incandescent gas
    A gigantic nuclear furnace
    Where hydrogen is built into helium
    At a temperature of millions of degrees

    Yo ho, it's hot, the sun is not
    A place where we could live
    But here on Earth there'd be no life
    Without the light it gives

    We need its light
    We need its heat
    We need its energy
    Without the sun, without a doubt
    There'd be no you and me

    The sun is a mass of incandescent gas
    A gigantic nuclear furnace
    Where hydrogen is built into helium
    At a temperature of millions of degrees

    The su

  • My wife was having a baby. We were in and out of the hospital from about a week before the event till a week after.

    That said, we did nickname our daughter space baby. Little did I know...

    Well if she grows up to be some sort of supergenious I'll blame it on my genes anyway.

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