Become a fan of Slashdot on Facebook

 



Forgot your password?
typodupeerror
×
Space

Pluto's Outer Moons Orbit Chaotically, With Unpredictable Sunrises and Sunsets 92

StartsWithABang writes: Few things in this world are as regular as sunrise and sunset. With the application of a little physics, you can predict exactly where and when the sun will rise or set from any location on Earth. Thus far, every world in our Solar System — planet, moon and asteroid — has had the exact same experience as us. But out in the Kuiper belt, Pluto is different. The only known world in the Solar System where a significant fraction of the system's mass is not in a single component, the outer moons of the Pluto-Charon system provide a unique environment to study how planets might behave in orbit around binary stars. The amazing takeaway? The rotational part of the orbit is chaotic; the worlds tumble, and hence sunrises and sunsets are no longer predictable.
This discussion has been archived. No new comments can be posted.

Pluto's Outer Moons Orbit Chaotically, With Unpredictable Sunrises and Sunsets

Comments Filter:
  • Well the last link is Ethan, the first one is broken and the middle one shows a grid of potatos.

    • Well the last link is Ethan, the first one is broken and the middle one shows a grid of potatos.

      So they went full potato on us?

  • by Anonymous Coward

    Click link
    Medium.com
    Click back

    At this point you could be posting next weeks lotto numbers, I still wouldn't read it.

  • by wonkey_monkey ( 2592601 ) on Friday June 05, 2015 @04:36AM (#49846471) Homepage

    The rotational part of the orbit is chaotic; the worlds tumble, and hence sunrises and sunsets are no longer predictable.

    "Rotating around more than one axis" doesn't automatically mean chaotic, does it?

    Also there was this quote from the article:

    If you were on a fixed point on the surface of Nix, you’d see the Sun rise in the east on one day, then at an ever-changing angle over the next few days, and eventually it would rise in the west, cycling through in chaotic fashion.

    Aren't "cycling" and "chaotic" mutually exclusive?

    Even on Earth the Sun rises in an "ever-changing position" at an "ever-changing angle," but we don't call that chaotic.

    • Or to put it another way, do they mean it really isn't predictable (perhaps because of all the gravitational influences in the area), or that the math is just a bit harder?

      • Re: (Score:3, Insightful)

        by Anonymous Coward

        They mean it's chaotic in that a small change in initial conditions throw your predictions completely off. It's "a bit harder" like the Mandelbrot set is "a bit more complicated than" a circle.

      • Re: (Score:3, Interesting)

        by Anonymous Coward

        I can't say anything about the math, but the video [youtube.com] does look as if there is a phase change into chaotic behavior, i.e. the satellite "tumbles out of control". Here Nix's oblong shape helps turning it into a "wobbly duck" [npr.org]. IIRC chaos means that a tiny change in initial conditions at time T can cause an arbitrarily big change at time T + delta T, thus making the result unpredictable (in spite of there being an exact formula for it) because there is always a measuring error.

      • Anyway, who cares about sunset when you're that far away, the sun is just a star in the sky that's a bit brighter than the others

        • by kanweg ( 771128 )

          "the sun is just a star in the sky that's a bit brighter than the others"
          A bit very much brighter star than the others, actually:

          http://blogs.discovermagazine.... [discovermagazine.com]

          It is far more bright than the full moon.

          Bert

        • I had never bothered to make this calculation, but always sort of assumed that the Sun would look like a disc from those distances... very small but still with a disc shape easily discernible by naked eye. This made me do the calculation. Turns out that the Sun looks almost exactly the same size from Pluto (at perihelion) as Venus does from Earth (at their closest distance)! However, venus at its closest is bright enough to cast discernible shadows and Sun's absolute brightness is a LOTTTT more than venus.
      • by Anonymous Coward

        Chaos in physics and math just mean that near by starting points will diverge exponentially with evolution of the system. It requires the system to be determinant, meaning if you had perfect knowledge of the starting point, you could work out an exact prediction for the far future. But since there are errors in measurements (or other minor influences not being modeled), predictions made from your measurement will be ok for a while, but eventually diverge from the actual measurements.

        So in a sense, to answ

    • by jandersen ( 462034 ) on Friday June 05, 2015 @04:48AM (#49846503)

      A tip that can save you a good deal of wasted effort: if the link is to medium.com, they probably havn't got all that much of a clue. Medium.com is a glossy magazine on par with "Heat", "Hello" and the like; I can't imagine anybody with technical or scientific insight wanting to waste time on it.

      • Ethan's articles are quite interesting and often very informative of scientific topics at a readable level.

        Why the hate? Did he used to steal your lunch money as a child, or something?

        • We hate them because they are full of click bait posted by someone who only wishes to monetize his site. When his audience is hard core nerds who remember the days of the internet before ads and the Eternal September.

        • Why the hate?

          Not hate, just irritation at somebody who likes to show off a knowledge he hasn't got. A bit like when some manager tries to impress the engineering team with the fact that he once wrote a few lines of Excel BASIC code. It makes you wince.

    • by Anonymous Coward

      Aren't "cycling" and "chaotic" mutually exclusive?

      I last studied chaos at undergraduate level in the late 90s but, in short... no. Cyclic behaviour emerges naturally from (some) chaotic processes. I'd love to go into more detail but, like I said... late 90s, not really looked much at it since. I do remember some very nice simulations :)

    • by srussia ( 884021 ) on Friday June 05, 2015 @05:23AM (#49846581)
      Yes. It's an n-body dynamical system.
      • Did nobody RTFA?

        It's not the orbit that's chaotic. It's the rotation of the moon. It's not rotating around a fixed axis, but tumbles chaotically due to the multiple gravitational forces acting on it.

    • by Anonymous Coward

      "Rotating around more than one axis" doesn't automatically mean chaotic, does it?

      There is the so called Tennis Racket Theorem [wikipedia.org], that when you have an object with no symmetry in the moment of inertia, it is unstable when trying to spin around the intermediate axis (this effect has been known about longer than the dates on wikipedia and should be in any intro mechanics book that is at the Lagrange equation level). And that doesn't require gravity, but gravity can make the process definitely chaotic in the actual physics definition: small changes to initial conditions cause diverging traje

    • Aren't "cycling" and "chaotic" mutually exclusive?

      No. On earth, the weather cycles from hot to cold and back to hot again on a yearly basis, yet it is still chatoic.

      Chaotic doesn't mean completely unpredictable, what it means more or less is that for a tiny error in initial conditions, errors in your prediction will grow exponentially over time, but only up to a point. Once you've diverged far enough it no longer makes sense to talk in terms of errors.

      The Pluto system is still constrained by physics, so the

      • by Maritz ( 1829006 )

        The Pluto system is still constrained by physics, so the objects will continue to rotate and they will continue to orbit and they are still gravitationally bound so nothing's going to go flying off to alpha centauri.

        From TFA: "Rather than rotating about a single axis, Pluto’s moons Nix and Hydra tumble chaotically as they move around the Pluto-Charon system. Sure, the revolution of their orbits isn’t all that chaotic—they’re in stable, resonating orbits with one another—but the rotational part is!"

        Yes, they will continue to rotate, I may have missed where someone suggested they wouldn't, but I don't think anyone did. The rotation about an axis itself being chaotic is the claim. Not the or

      • in westeros the cycles of summer and winter are chaotically unpredictable.

      • Hm. Predict again:

        http://en.wikipedia.org/wiki/T... [wikipedia.org]

        "...hurricane-force winds and rough seas in London"

        http://www.bbc.com/news/uk-297... [bbc.com]

        "The woman died in central London..."

        • And you didn't read what I actually wrote. Tropical cyclones start in the tropics as hot core systems. They can continue to subtropical regions and even up to temperate regions. However in the links you posted, Hurricaine Vince made it as far as Spain while still a hot core system, but didn't reach London in that state. The rest were all "remenants off", i.e. after the transition to a cold core system.

    • Aren't "cycling" and "chaotic" mutually exclusive?

      No. Chaotic systems cycle-- look up, say "strange attractor [stsci.edu]". Or even google "cycle AND chaos theory. [google.com]"

      What makes it chaotic is that the phase of the cycling is predictable in the short term, unpredictable in the long term.

    • The rotational part of the orbit is chaotic; the worlds tumble, and hence sunrises and sunsets are no longer predictable.

      "Rotating around more than one axis" doesn't automatically mean chaotic, does it?

      That actually brings up another possible explanation. The rotational analogue for "mass" is "inertia". But unlike mass which is a scalar, inertial is a tensor - a 3x3 matrix. Rotation is only stable around the minimum and maximum inertial axes. If you try to spin an object around a different axis, its r

  • by cachimaster ( 127194 ) on Friday June 05, 2015 @04:44AM (#49846491)

    Not a single science fiction writer, or scientific study that I know, imagined worlds with chaotic orbits. But here is one, in our own solar system. And we found out just now.

    • I'm not convinced that medium.com's definition of "chaotic" - meaning "a bit weirder than on Earth" - is in any way related to the mathematical concept of chaos.

      • by Lumpy ( 12016 ) on Friday June 05, 2015 @05:25AM (#49846585) Homepage

        medium.com's definition of chaotic is getting the wrong coffee from the barista.

        • by pz ( 113803 )

          Funny, yes, but the scientists behind the research, at NASA, do use the term correctly. They do mean chaotic in the mathematical sense. I listened to the streamed press conference on the subject and, if you look beyond the egregious mis-pronouciation of Charon by the lead author on the work, someone who really should know better, they did a pretty good job of establishing a likely chaotic orientation for Hydra and Nix. Not "really messy and hard to predict but deterministic," but chaotic. With an N-body

    • by Maritz ( 1829006 )
      Article doesn't say that the orbits are chaotic. It says that they are stable, and even have resonances.
    • by ceoyoyo ( 59147 )

      Despite what Ethan claims, we've known about chaos in the solar system for a long time. Since people started doing simulations, actually. Hyperion is known to rotate chaotically, and IIRC the orbit of the moon is also mildly chaotic.

    • Not a single science fiction writer, or scientific study that I know, imagined worlds with chaotic orbits

      Cixin Liu, "The Three-body Problem."
      There are several old-ish scifi stories but I don't recall their titles at this instant.

    • Check out Fred Saberhagen's "Berkerker's Star". Miracanda is a very strange place consisting of a neutron star, a black hole, and Miracanda - which is sort of, but not, a planet. ("This is not a planet. This is not a planet.") They all three exist in a very loopy sort of mutual orbit.
    • Every piece of science fiction that touched the subject (and I've read) understood that the orbit of asteroid belt (as a group of objects) is a chaotic system.

    • G. David Nordley, "A Calendar of Chaos", Analog, December 1991
  • by Crashmarik ( 635988 ) on Friday June 05, 2015 @04:59AM (#49846523)

    Definition Moon: any planetary satellite:
    the moons of Jupiter.

    • So what you're saying is, "that's no moon!"

  • by fuzzyfuzzyfungus ( 1223518 ) on Friday June 05, 2015 @05:44AM (#49846643) Journal
    Asteroids do not concern me, Slashdot.
  • Can we please get a medium.com tag so I can filter out this garbage.

    I don't want to read any "science" blog from an "author" who doesn't even know what chaotic means.

    • Can we please get a medium.com tag so I can filter out this garbage. I don't want to read any "science" blog from an "author" who doesn't even know what chaotic means.

      The use of the word "chaotic" is accurate here.

      The inaccurate word used in the summary (not the article) was "orbit". It is the rotation that is chaotic, not the orbit.

      Nevertheless, the science is pretty interesting. Sorry you don't want to hear about it.

      • The use of the word "chaotic" is accurate here.

        Disagree you can't cycle through anything in a chaotic fashion. It either cycles and therefore is non-chaotic, or it's chaotic and therefore does not cycle. It's like saying that Neptune's orbit around the sun is chaotic because it doesn't follow a perfect path due to gravitational effects of Jupiter. It can still be accurately modelled and thus isn't chaotic.

  • Looks like a three body problem: http://www.amazon.com/Three-Bo... [amazon.com]

  • Mathematics has always suffered a severe challenge when there are more than two actors in a system. Although one day the problem may be cracked as things stand the motion of multiple objects being attracted and repelled by each other appears to be chaotic.
    • by Anonymous Coward

      Although one day the problem may be cracked as things stand the motion of multiple objects being attracted and repelled by each other appears to be chaotic.

      There is no "appears to be chaotic" in mathematics and physics, as chaos is a well definite mathematical phenomena. Regardless of how much advances are made in analysis of a particular system or chaotic systems in general, it doesn't change that a system fits that definition.

  • by Anonymous Coward

    At last, science has proven that there is a none-magical explanation of Westeros's unpredictable seasons.

  • by mr.gson ( 458099 ) on Friday June 05, 2015 @08:07AM (#49847297)
    Saturn's moon Hyperion [wikipedia.org] is also known to tumble chaotically.
  • Are they chaotic? The friction in inter galactic space is nearly zero. These bodies will obey the conservation of mass, linear momentum, angular momentum and energy. They are way below reltativistic speeds to be involved with Hawkins radiation and such stuff. They should be fully predictable and non chaotic, right? The period might be very long and complex compared to our sunsets and sunrises, but are they chaotic?
    • http://www.dynamics.unam.edu/B... [unam.edu]

      Evolution of attractors in quasiperiodically forced systems, From quasiperiodic to strange nonchaotic to chaotic.

    • You're getting into semantics there. You could probably build a supercomputer cluster to dedicate to simulating the motion and predict the positions. That you have to makes it worth putting a handle on to talk about that kind of system - 'chaotic' is commonly used; that doesn't mean the motions are impossible to ever know due to quantum uncertainty.

"I've finally learned what `upward compatible' means. It means we get to keep all our old mistakes." -- Dennie van Tassel

Working...