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Space Science

Frame Dragging by Earth Reconfirmed 379

smooth wombat writes "After 11 years of watching the movements of two Earth-orbiting satellites, researchers found each is dragged by about 6 feet (2 meters) every year because the very fabric of space is twisted by our whirling world. The results, announced today, are much more precise than preliminary findings published by the same group in the late 1990s. The researchers say their result is 99 percent of the predicted drag, with an error of up to 10 percent. The details are reported in the Oct. 21 issue of the journal Nature."
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Frame Dragging by Earth Reconfirmed

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  • networks (Score:4, Funny)

    by OwlofCreamCheese ( 645015 ) on Wednesday October 20, 2004 @07:11PM (#10581492)
    derr... my brain thought "what? frame dragging? story about networks or something?"
  • Isn't that... (Score:2, Informative)

    by pmazer ( 813537 )
    What one of the recent satelites was sent up to do?
    • Re:Isn't that... (Score:5, Informative)

      by Anonymous Coward on Wednesday October 20, 2004 @07:15PM (#10581520)
      Yes, the project is called Gravity Probe B [stanford.edu], launched in mid-April 2004.


      -HJ

      • Re:Isn't that... (Score:5, Informative)

        by nerdguy569 ( 727358 ) on Wednesday October 20, 2004 @08:01PM (#10581800)
        No, this is different, Gravity Probe B is a separate project, this was an Italian research group who used freely avaliable data from the past 11 years of the two LAGEOS satelites, who's orbital paths have been monitored for that time. Space.com has a good summary [space.com], and so does New Scientist [newscientist.com]
  • Ouch... (Score:4, Funny)

    by tetranitrate ( 798753 ) <a-j@cha r t e r .net> on Wednesday October 20, 2004 @07:12PM (#10581497)
    After 11 years of watching the movements of two Earth-orbiting satellites, researchers found each is dragged by about 6 feet (2 meters) every year because the very fabric of space is twisted

    The researchers say their result is 99 percent of the predicted drag, with an error of up to 10 percent


    I think my head just exploded
  • by Tablizer ( 95088 ) on Wednesday October 20, 2004 @07:13PM (#10581500) Journal
    ....I can't find the @!#% TV remote. Time to diet, I guess.
  • GR lives on and on (Score:5, Interesting)

    by metlin ( 258108 ) * on Wednesday October 20, 2004 @07:13PM (#10581505) Journal
    I was under the impression that there has been experimental evidence for the existence of Spin Distortions in Lense Thirring effect?

    This would mean that inward spiralling matter observed near black-hole like phenomenon were indeed valid physically.

    But as the Nature article points out, the accuracy of Ciufolini's work not yet certain, since the value is not absolutely the same as that predicted by relativity (only 99%, with an error of upto 10%). And anyway, the last major prediction of GR -- gravity waves -- is not yet done.

    So until then, three cheers for experimental physics!
    • by jnik ( 1733 )
      But as the Nature article points out, the accuracy of Ciufolini's work not yet certain, since the value is not absolutely the same as that predicted by relativity (only 99%, with an error of up to 10%)

      What are you looking for? There's no such thing as "certain." In fact, this result is excellent--with 10% error bars, I'd be ecstatic to agree with predictions within 1%.

      99% +/- 10% is far better than 99.9% +/- .01%

      • > 99% +/- 10% is far better than 99.9% +/- .01%

        Maybe... but when you compare the two, isn't 99.9% +/- .01% an indication that your process is better, or more precise?

        99% +/- 10% might get you within range of your prediction, but the more precise result may actually indicate that your predictions are not complete.

        As for me, I suppose I'd prefer my data and analysis be sound, even if it means I have to revise my predictions.
      • by Phleg ( 523632 )

        99% +/- 10% is far better than 99.9% +/- .01%

        Not at all. That +/- 10% is there for a reason. The margin of error is just that--a margin within which error could have occurred. The true value could easily have been 92% or 105% the predicted value, but the error caused it to become closer to what was expected. I'd be more interested in the latter example, as deviations that small usually indicate that we're on the right path with minor reworking.

        • by Kiryat Malachi ( 177258 ) on Wednesday October 20, 2004 @10:25PM (#10582605) Journal
          You obviously don't understand margin of error. The large error suggests imprecise measurement, the central limit suggests that the end value will in fact be close to the predicted. 99% +/- 10% is more promising with regards to the theory than 99% +/- 0.01% would be.

          Statistics lesson.

          Margin of error is not a bound within which any result is equally likely. Depending on the distribution, it can be anywhere from equal likelihood (uniform distribution, which is extremely rare in natural processes) to single point (in which case the MOE is obviously zero, and the result is definitive.) For example, most things with a binary outcome (yes or no, 1 or 0, etc) follow what's known as the binomial distribution. If the probability of either result is equal, the binomial pattern is equivalent to the normal (Gaussian) distribution, which looks like a bell, and is produced by many processes, especially processes involved in noise and measurement error.

          Now, depending on the expected distribution this changes, but for a normal distribution the likelihood is probably 95% that the actual value is within that +/-10% (assuming they're using the typical definition of 2 sigma for margin of error) - but it's around 65% likely that the result is within +/- 5%, and the most likely single result is in fact 99% - not 99% likely, but the maximum likelihood points to 99%.
  • by the_mad_poster ( 640772 ) * <shattoc@adelphia.com> on Wednesday October 20, 2004 @07:14PM (#10581510) Homepage Journal

    Hmmm... I read this earlier because CNN jumped on it, but there are questions (noted in the Nature article) about its actual accuracy. There's some concern that the original gravity field maps that this method used weren't accurate enough.

    This is a good step forward, but I think until we call the frame dragging prediction confirmed we should wait to see what Gravity Probe B comes up with.

    • by metlin ( 258108 ) *
      Actually Frame Dragging is supposed to happen, just that there seems to be some doubts with regard to this experiment in particular.

      Besides, I was under the impression that Frame Dragging was already verified experimentally among certain other massive astronomical bodies out there.
      • by the_mad_poster ( 640772 ) * <shattoc@adelphia.com> on Wednesday October 20, 2004 @07:18PM (#10581540) Homepage Journal

        Frame dragging is the explanation for observed inconsistencies in the swirling gas/dust clouds surrounding massive black holes, but I don't know that this portion of the theory has ever been confirmed via experiment.

        • by metlin ( 258108 ) *
          You're right, except that it's theoretically observed around any massive body - even Earth.

          It's just that it is easier to observer the phenomenon around blackholes owing to their massive nature.

          It's just the -actual- curving of space-time around massive bodies that affect the way objects are drawn towards the massive body.
          • Agreed, but we're talking about two different things now. It's definitely been observed in the cosmos, but AFAIK this is the first experiment that tentatively confirms the phenomenon.

            • Well, ofcourse.

              I get you now.

              What I meant was that this is merely an observation, there are some things in nature I do not quite think we can prove completely through purely experimental means except through observation.

              I suspect if even the LIGO and LISA experiments conclusively -prove- it experimentally, I think they are more of particular measurements and observation.
          • by Rob Carr ( 780861 ) on Wednesday October 20, 2004 @07:35PM (#10581647) Homepage Journal
            It's just that it is easier to observer the phenomenon around blackholes owing to their massive nature.

            The problem with the black hole observations is that a number of guestimates need to be made. The guestimates are probably valid, but there's enough wiggle room that it's hard to say the effect is really there.

            The gravity maps that were used for this latest release are far more accurate than previous attempts to do this with the 11 years of data, and it seems to have confirmed that frame dragging does occur as per relativity.

            The Gravity B experiment will be one more proof of frame dragging - although no one really expected frame dragging to be disproved. There's too many other things about General Relativity that have been confirmed.

            Somewhere, General Relativity must break down so that it can match up with wherever Quantum Mechanics breaks down, permitting the two theories to be joined in some coherent fashion. But there's no way that frame dragging could be the place where General Relativity gives out. It's an experiment that needed to be done. It's dotting the i and crossing the t. But it's not worth much. That's the real debate. Should all the money have been spent on Gravity Probe B to prove something everyone accepts, or should other ways (like digging up 11 years of satellite data) have been used and the money spent on something that might actually give a bang for the buck?

    • Existence is not necessarily based on STRAIGHT FACTS. Sometimes distorted truths or twisted lies partially belie the evidence in plain view.

      The accuracy of TRUTH has been determined to suffer a truth variance. Politicians are known to spin yarn and alter the very fabric of space, time, and facts usually accepted without question. However, due to their dragging the truth so far as to rip the facts from the framework, the results are about only 10% accurate.

      There is a margin of error of this report of about
  • by themadphysicist ( 813419 ) on Wednesday October 20, 2004 @07:14PM (#10581514)
    ...to change from 'theory' it to The Laws Of Relativity?
    • No. Not until it's proven. As long as someone could come up with another theory that predicts the exact same results, in a different way, which is not disproven, it's still a theory.

      For example, I could say "My theory includes everything in General Relativity, except for a small sphere four miles wide in the center of Andromeda, where light travels twice as fast."

      Yes, this makes truly proving anything in the physical world basically impossible.
      • Theory? (Score:5, Informative)

        by cbr2702 ( 750255 ) on Wednesday October 20, 2004 @08:08PM (#10581848) Homepage
        No. Not until it's proven. As long as someone could come up with another theory that predicts the exact same results, in a different way, which is not disproven, it's still a theory.

        Newton's laws have not been proved, they are just very likely. And there are some problems with them. So why not extend this naming to relativity?

        I could say "My theory includes everything in General Relativity, except for a small sphere four miles wide in the center of Andromeda, where light travels twice as fast."

        Then while you have a theory that has not been disproved, Ockhams Razor advises us to use the simplest one that explains all the data, and that's not yours.

        Yes, this makes truly proving anything in the physical world basically impossible.

        Which is why it is not a good idea for us to require theories to be "proven" before becoming "natural laws". We call a proven "theory" a "theorem".

        • Re:Theory? (Score:4, Insightful)

          by SubliminalLove ( 646840 ) on Wednesday October 20, 2004 @09:30PM (#10582323)
          Then while you have a theory that has not been disproved, Ockhams Razor advises us to use the simplest one that explains all the data, and that's not yours.

          You make an excellent point here, but not the one you think you do. Ockham's Razor, as you point out, advises us. It says that the least complicated explanation for observed behaviour is probably the correct one. It does not say that it is definately correct. It simply allows us to predict which of several explanations is most likely to be correct based on our past experience that things are usually simpler rather than more complicated. Ockham's Razor, four thousand years ago, would have had us believe that the stars were little point-sources of light floating just above the clouds. Certainly that was a more simple explanation of our observations than the idea that they were huge self-sustaining fusion reactions happening thousands of light-years across a limitless universe.

          ~Benjamin
      • Most of people in this thread [slashdot.org] seem to be very confused, so please let me explain the most basic terms, using the most relevant quotes taken from several Wikipædia [wikipedia.org] articles.

        Axiom in epistemology is a self-evident truth upon which other knowledge must rest, from which other knowledge is built up. To say the least, not all epistemologists agree that any axioms, understood in that sense, exist.

        Axioms in mathematics are not self-evident truths. They are of two different kinds: logical axioms and non-log
      • No. Not until it's proven. As long as someone could come up with another theory that predicts the exact same results, in a different way, which is not disproven, it's still a theory.

        For example, I could say "My theory includes everything in General Relativity, except for a small sphere four miles wide in the center of Andromeda, where light travels twice as fast."

        You joke, but interestingly enough, something like that has happened. Newton came up with a set of "laws" for the physical universe, and

    • by mjm1231 ( 751545 ) on Wednesday October 20, 2004 @07:25PM (#10581585)
      No. This is a common misconception, but theories do not become laws by collecting evidence in their favor. (Otherwise evolution would have been elevated from theory to law long ago). See this [wikipedia.org] Wikipedia article.

      Actually, the article could do better to explain the difference between the law of gravity (which is the mathematical formula which describes the attraction between two masses) and the theory of gravity, which attempts to explain how or why two masses attract each other exactly that way.

      • by Alwin Henseler ( 640539 ) on Wednesday October 20, 2004 @08:37PM (#10582020)
        ..theories do not become laws by collecting evidence in their favor..

        In contrast to human laws, which just 'become' without any evidence in their favor (and then presented as absolute truths).

        Yes, I've always known that mother nature is far better at creating sensible & logical constructs (and enforcing them)...

    • NO! Are you out of your mind?

      A law is essentially an axiom, and GR is not yet.

      Atleast not until all aspects and effects of it are proven completely.
    • No (Score:5, Informative)

      by Rufus88 ( 748752 ) on Wednesday October 20, 2004 @07:33PM (#10581638)
      No. Scientific theories don't get promoted to laws. Laws are observations of things that appear to hold true. For example, the law of gravity ("what goes up, must come down"), Snell's Law, Ohm's Law, the Law of conservation of Mass/Energy, the Laws of Thermodynamics, etc. A theory is an *explanation* that models some observed phenomena and which has the power to predict other phenomena. Theories are either falsified (i.e. proven wrong), or are confirmed (i.e. shown to be consistent with some new observation.) Theories are never proven true; rather, they are simply confirmed to a greater and greater degree. No matter how well a theory is confirmed, it can always be falsified by a new experiment testing some as-yet-untested prediction. In this case, the theory is either revised to account for the new observation, or it is simply discarded.
    • Isn't it time soon...to change from 'theory' it to The Laws Of Relativity?

      I don't think so. Legislation is not the answer to every problem.

  • Either way, the Gravity Probe B experiment is expected to deliver a measurement of frame-dragging with 1% accuracy very soon.

    Hmm... I don't know that results that are only 1% accurate are particularly meaningful in any measurement or experiment. I assume that they actually meant accurate to within 1% but that would be 99% accurate...

    Or am I completely missing the obvious again...
    • Re:Not Very Accurate (Score:2, Informative)

      by vondo ( 303621 ) *
      "with 1% accuracy" is perfectly acceptable. If you have a meter stick that you can measure the length of something "with 1 mm accuracy," that's what you're interested in. The statement you quote means Gravity Probe B will be able to measure with an accuracy of 1% of the predicted value.
    • Re:Not Very Accurate (Score:2, Informative)

      by rgarcia ( 319304 )
      Plus, they say that the drag is about 6 feet or 2 meters? Not quite. I must nitpick.
      2 meters is about 6'7", or 6 feet is about 1.82 meters. So which is it?

      The metric system strikes again, I guess.
  • by Anonymous Coward on Wednesday October 20, 2004 @07:18PM (#10581549)
    Read up the history of this project sometime. This is the longest running single project in the history of the federal government, it took like 50 years to complete because they kept getting stalled and most of the work was being done by grad students. In order to do this experiment they had to build what are, more likely than not, the two most perfectly round objects in the entire universe and then spinning them really really really quickly in a vacuum in outer space.

    Crazy shit.
  • by nate nice ( 672391 ) on Wednesday October 20, 2004 @07:21PM (#10581564) Journal
    Tysons Equation explains this:

    ch/(c - ke^n)

    Where c is speed of light, of course, h is a coefficient representing the fabric and this is a quotient where k is a coefficient to the constant e (~ 2.7) and raised to n which is a variable for mass or changing objects in space.

    Sanders developed a corollary for this saying:

    f-r/e^d

    where f is the temperature in space in farenheight and r is the change, divided by e, again, to the d, which is similar to n, but loses its delta value.

    It's a lot to grasp if you don't know physics well, but what they say is that objects do indeed get entangled in the fabric of space time and move, due to gravity. Neat stuff...really. Hehehe.
    • by synaptik ( 125 ) on Wednesday October 20, 2004 @07:33PM (#10581637) Homepage
      Stupids mods... this should be funny, not informative. "Chicken" ... "Sanders" ... "Fred" ... it's obviously a joke.

      A real 'clucker' of a joke, in fact.

      Not posting anonymous, so that I can receive the karmic flogging I deserve for making this meta-comment.
    • by ConceptJunkie ( 24823 ) on Wednesday October 20, 2004 @08:00PM (#10581782) Homepage Journal
      Sanders developed a corollary for this saying:

      f-r/e^d


      You were describing a formula developed by Gwynne(65) and further developed by Sanford(73), and Schneider(77).

      Sanders' Equation was:

      hAr/(l^An)

      where h is Planck's constant, A sub r is the acceleration frame relative to the rotating mass, l is the angular momentum, and A sub n is the acceleration frame normal.

      I understand this formula works for 11 dimensions (or "vibratory branes"... often referred to in terms of "hertz and spaces"), but no one besides Sanders seems to understand exactly what they are.

      Just like Relativity which has the Special and General versions, this also has two versions, related to General Relativity and M-theory respectively.

      These are commonly referred to Regular and Extra Stringy.
  • by alaivfc ( 823276 ) on Wednesday October 20, 2004 @07:27PM (#10581589)
    This idea of this drag was originally proposed by Einstein. Almost fifty years ago, the idea of how to experimentally verify this effect was proposed; however, it required the launch of a very accurate gyroscope. That gyroscope, which is the center-piece of the longest running NASA project ever, was just recently launched into space. More info about it (Gravity Probe-B) and a good description of this drag can be found at http://einstein.stanford.edu [stanford.edu]. Yes, the article is describing a different project than GP-B; however, it references the skeptism that the folks at GP-B have expressed at this latest experiment, and the GP-B folks are considered the experts in the field. Check out their site, it's fascinating.
  • Perhaps (Score:5, Funny)

    by bleckywelcky ( 518520 ) on Wednesday October 20, 2004 @07:28PM (#10581599)
    From the CNN article:

    "Ciufolini's team analyzed millions of laser signals bounced off two satellites, called LAGEOS and LAGEOS 2. Both are highly reflective spheres not designed to do any work of their own. They look like 2-foot-diameter (0.6m) golf balls and contain no batteries or electronics."

    Space Balls?
  • by Trepidity ( 597 ) <[delirium-slashdot] [at] [hackish.org]> on Wednesday October 20, 2004 @07:31PM (#10581623)
    My framerate has been dragging too but I don't see the relevance of satellites to this issue. I've got cablemodem so satellite internet latency cannot be the problem.
  • A Brief Explanation (Score:5, Interesting)

    by Pugio ( 816116 ) on Wednesday October 20, 2004 @07:31PM (#10581627) Journal
    For those who aren't familiar with all of this: (I know they included it in the article but here's my own explanation.)

    Basically (acc. to the theory of relativity), gravity is not really a pull from one object to the other. What it is is a distortion in the fabric of space-time. What does this mean? Well think about a sheet stretched out very flat. On this sheeta are a number of very light objects. Now think of a lead weight placed in the center of the sheet. The sheet will bend into an inverted cone shape and all the items will slide towards the weight. Ta Da! Gravity!

    Gravity is an extremely pervasive force. While it is the weakest of the defined forces, it permeates every area of our universe and, overall, has the largest impact. It is even powerfull enough to warp light. Again, just think of light as travelling along the surface of the sheet, the depression in the middle will warp the ligh as it travels.

    What this article is describing is a secondary gravitational effect. Now, not only does this lead weight cause things to fall towards it, but if the lead weight was spinning, it will create another path/pull of gravity. In the sheet example. think of the lead weight as shaped like a corkscrew. Now imagine what would happen if you started turning that corkscrew. Not only would the sheet be weighed down in that area but it would also become wrapped around the corkscrew, causing further twisting in the fabric of the sheet. This is the effect that is currently trying to be proved.

    Black holes are essentially very very very heavy weights. They create an extremely big "depression" in the fabric of the sheet. Many black holes also spin on their axis, much as the earth does. This spinning again distorts the sheet but, given how heavy the black hole is, it causes very large distortions.

    This is all predicted by the theory of relativity. For this theory to be considered valid, it must make certain predictions that can be (eventually) proven. If this experiment is, in fact, true then this is yet another proof that relativity is the real deal. And there you have it.

    Actually, now that I think about it. This pattern that they describe with the black hole looks exactly like a spiral galaxy (ie. the milky way) - with large "waves" coming out on all sides. It has been theorized that there is an enormous black hole at the center of the galaxy - could this be evidence of it?

    • Is this at all related to that effect where the gravitational influence of the sun is slightly reduced at the point of totality in a solar eclipse?

      I've been vaguely looking around for more information on that. From what I can gather, it's a reproducible observation, but other effects haven't been ruled out, so no one's sure what to make of it.
    • by rmdyer ( 267137 ) on Wednesday October 20, 2004 @09:44PM (#10582392)
      As a long time science buff I'm pretty well read on the various "big" theories out there relating to how the universe works. Your explanation is a good one, and tends to follow the standard space-time is a fabric, blah, blah, blah. But the things that annoy me most about modern concepts are the big ambiguities that result of some simple explanations. For example, take the concept of the "stretching" of space-time. If we up all the dimensions by 1, going from a flat sheet to a volume. We would expect that the word "stretching" doesn't fit very well. We alrady have 3 dimensions of space and 1 of time. So basically what stetching means in 3 dimensional terms is "densities" of space. More precisely we find that when large masses are placed in a space-time fabric (volume) the space around it gets more dense. If space is more "dense" around large masses then that means there is "more space" within a given volume. But what volume? Gravity waves would be seen as simply variaitions in the densities of space-time.

      This all seems very strange until you read up on some of the modern concepts of vacum physics. Space is not seen as being emtpy at all. Space is actually something. Where matter within space is simply some strange configuration of whatever space is. This is sort of like ice in water, where water can be viewed as space, and ice is the matter within it. If this is true, as in the way things actually work, then everything that exists is really just one thing...the stuff that space is made of. Apparently though, this "stuff" is non-continuous, becuase how can you stretch it otherwise? It seems to have a finiteness so that, like air pressure, it gets more dense the closer you get to a massive object. In my view, the Bekenstein bound, a model for the granularity of quantum events, seems to be linked to the finiteness of space-time. The Bekenstein bound proposes that any given volume of space can only have a finite number of states. This brings about the model of a computer screen where you only have a certain number of pixels within a given area. To expand further, based on the Bekenstien bound, it would be only possible to have a finite number of physical manifestations (objects) within a given volume of space-time. In the same way, you can only have a limited number of possible pictures viewable on a computer screen within a given resolution.

      Does the universe actually work this way? If it does, then this suggests the possiblity that the volume of the entire universe is a large finite state machine. Within the lifetime of the universe, the machine is working out all the possible logical permutations of reality as time progresses. What we don't know is: Is the volume of the entire universe infinite? What would be the end result of the permutations?

      The contrary argument would be that space-time could actually be continuous, but that there only exists so-called quantum interfaces at a certain level. Below the level of the interfaces, we cannot know about any of the other features of space-time. The interfaces block further exploration into space-time because our measuring devices only operate at the level of the interfaces. This model is very much like working with Legos(TM). Legos blocks are finite, and they allow you to build large numbers of possible devices (objects) within a given volume of space. But Legos can only interact at the connection level. Where there are no connections, Legos cannot be known.

      The more I read, the more I'm finding that modern science is telling the above story over and over again as we come to understand things better. Do you guys read the same picture, or am I just reading the wrong books?

      +1
    • Your example with the sheet of paper presupposes an outside force that causes the objects on the paper to slide towards the depression. To wit, um, gravity.

      Without the force of gravity all the objects would remain where they were, regardless of the deformation of the paper. They wouldn't even stay on the paper, they would just float.

      I know there's real, valid science behind relativity. I just would like to request a better metaphor. Or a better explanation. Or maybe just a turkey sandwich.

      That is al
    • by InterGuru ( 50986 ) <interguru@gm[ ].com ['ail' in gap]> on Wednesday October 20, 2004 @11:14PM (#10582909)
      The analogy of a weight on a stretched membrane is easy to visualize, but depends on a force outside the "fabric" of space - ordinary gravity.



      A better analogy on how curved space can seem like a force is to look at two ships, both some distance apart at the equator heading north. For the sake of this argument, assume the Earth is totally cloud covered, and those on the surface are not aware of anything off of the surface.



      The captains will see that their initial motion is parallel. They are both going in a straight line, along a longitude line, heading for the North Pole. On the surface of a sphere, as on any curved ( or uncurved) space, a straight line is defined as the shortest distance between two points. As the two ships head north, the captains will notice that they are getting closer to each other; finally colliding at the Pole.



      After scratching their heads to figure out what happened, the will conclude that there was some force drawing the two ships together. From "outside" we can see that the collision was caused by the curvature of their space, but those whose motion, and vision is confined to the surface of a sphere, will give this force a name. Perhaps "gravity."

  • by EvilGrin666 ( 457869 ) on Wednesday October 20, 2004 @07:33PM (#10581641) Homepage
    For those of you like me who didn't have a clue what this article is about check out the Wikipedia entry [wikipedia.org] for frame dragging.
    • I thought frame dragging was when you dragged the frame of a window with your mouse. I was going to point out how this would never have happened if Earth used a one-button mouse.....
  • Although this probably a good explanation, couldn't something simpler be at play, such as:

    - atmosphere: although it is very thin by that point there is probably still enough to cause drag, even if we are talking decimals
    - Earth gravity: the Earth still has a gravitational effect even at that distance, so taking into account the pull down would reduce the forward vector of the satellites
    - Moon or Sol gravity: pretty much anything large enough has a gravity that will effect objects close by.

    Beca
    • by John Meacham ( 1112 ) on Wednesday October 20, 2004 @08:07PM (#10581837) Homepage
      Frame dragging IS the simpler explanation :)

      frame dragging was predicted in the early 1900s by the various equations that make up relativity. if we were to observe that it wasn't happening and some other effect were causing it, then that would be very odd indeed, as that would imply that all the equations which have been right in so many other ways are wrong in this one little regard making things much much more complicated.

      The simplest possible explanation for this is frame dragging.

      Also, the gravity effects you mention would not affect the sattelite in this way, a downward pull has no effect on the horizontal motion of a satellite and the moon and suns gravity can easily be accounted for. Also, imagine the root cause was the moon and suns gravity, then that would imply there is something fundamentally new about the gravitational laws we do not yet understand, which again is very interesting and much more complicated than frame dragging.
    • You're not recognizing just how sensitive and sophisticated measurements and calculations of Earth's gravitational field have become. It's been well over a decade now since I read of how a satellite was used to create new and detailed maps of the ocean floor by measuring local variations in sea level; because rock is more dense than water, a seamount a mile below the ocean's surface creates a slight increase in the local gravitational pull, causing the ocean to hump up slightly above the mount.

      The articl

    • atmosphere: although it is very thin by that point there is probably still enough to cause drag, even if we are talking decimals
      - Earth gravity: the Earth still has a gravitational effect even at that distance, so taking into account the pull down would reduce the forward vector of the satellites
      - Moon or Sol gravity: pretty much anything large enough has a gravity that will effect objects close by.

      I do believe that they factored in the earth's gravitational pull, considering that is what

  • by Anonymous Coward on Wednesday October 20, 2004 @07:55PM (#10581757)
    Not to be pedantic, didn't we learn that conversions in spacecraft need to be more precise?

    Sincerely,
    The Mars Climate Orbiter (AC to avoid karma whoring and giving away my location)
  • by Mikeybo ( 801849 ) on Wednesday October 20, 2004 @08:26PM (#10581951) Homepage
    Interesting, 'cause that can help us as new way to look at the space.

    - If the earth's spin warps space around the planet what else is created by others planets or, what's a galaxy's effect arounds or inside itself ?

    - Will this fabric help us to travel farther without a conventional energy ?

    - Is the actual space station fullproof against anykind of fabric ripples ??

  • by Nitish ( 795843 ) on Wednesday October 20, 2004 @08:39PM (#10582028)
    From the CNN article: Black holes [are] typically much more massive than Earth.
  • by CaptainPinko ( 753849 ) on Wednesday October 20, 2004 @08:42PM (#10582045)
    I took a course on the philosophy of modern physics at university and on the our text books was Einstein's own called Relativity : the Special and General Theory [gutenberg.net] fairly informative and yet accesible. It is available for free from Project Gutenberg [promo.net]. Just click on the first link.
  • Comment removed (Score:4, Interesting)

    by account_deleted ( 4530225 ) on Wednesday October 20, 2004 @09:40PM (#10582373)
    Comment removed based on user account deletion
  • by Theovon ( 109752 ) on Wednesday October 20, 2004 @10:55PM (#10582788)
    So, apparently, they had to take into account the non-uniformity of the earth's gravity in order to make accurate measurements. Turning that around, the non-uniformity of the earth's gravity caused a corresponding non-uniformity in the frame-dragging of the satelites.

    Consider measuring the non-uniformity of frame-dragging of a black hole. If there is any, that would imply a non-uniformity in the matter in the black hole. Through this, we can determine something about the nature or distribution of the matter inside of the black hole, even though we cannot directly observe it (without being spaghettied).

    So, you CAN get information back out of a black hole after all! (Although string theory already tells us that.)
  • by fulana_lover ( 652004 ) on Thursday October 21, 2004 @12:41AM (#10583367)
    wanna bet the next few episodes of star trek enterprise are gonna talk about how "the frame dragging around us is warping the space time continuum!" it'll probably be the nazis fault too...

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