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Space Math

Researchers Solve Mystery of the Galaxy With No Dark Matter (phys.org) 102

An anonymous reader quotes a report from Phys.Org: A group of researchers from the Instituto de Astrofisica de Canarias (IAC) has clarified a 2018 mystery in the field of extragalactic astrophysics: The supposed existence of a galaxy without dark matter. Galaxies with no dark matter are impossible to understand in the framework of the current theory of galaxy formation, because the role of dark matter is fundamental in causing the collapse of the gas to form stars. In 2018, a study published in Nature announced the discovery of a galaxy that apparently lacked dark matter. Now, according to an article published in the Monthly Notices of the Royal Astronomical Society (MNRAS) a group of researchers at the Instituto de Astrofisica de Canarias (IAC) has solved this mystery via a very complete set of observations of KKS2000]04 (NGC1052-DF2).

The researchers, perplexed because all the parameters that depended on the distance of the galaxy were anomalous, revised the available distance indicators. Using five independent methods to estimate the distance of the object, they found that all of them coincided in one conclusion: The galaxy is much nearer than the value presented in the previous research. The original article published in Nature stated that the galaxy is at a distance of some 64 million light years from the Earth. However, this new research has revealed that the real distance is much less, around 42 million light years. Thanks to these new results, the parameters of the galaxy inferred from its distance have become "normal," and fit the observed trends traced by galaxies with similar characteristics.

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Researchers Solve Mystery of the Galaxy With No Dark Matter

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  • Warning: (Score:5, Funny)

    by HoppQ ( 29469 ) on Wednesday June 05, 2019 @05:43AM (#58711756)

    Galaxies in mirror telescopes may be closer than they appear.

    • by necro81 ( 917438 )
      And me without mod points. Well played, HoppQ.
  • by enriquevagu ( 1026480 ) on Wednesday June 05, 2019 @05:44AM (#58711758)

    They have identified a 34.3% error in distance measurements. Once corrected, this explains the "singularity" of this galaxy, or more correctly, returns to the unexplained situation that requires some kind of dark matter to explain its behavior.

    While we all understand that science builds on replication and validation of previous experiments and measurements, finding such huge errors makes me quite sad. How confident are other measurements in Astronomy? Can we trust them? After these issues, when presenting other results, people will tend to think that conclusions may probably be wrong but arise from a 30% error in some measurement.

    • Re: (Score:2, Insightful)

      by Anonymous Coward

      We might as well not bother anymore. Let's all go back to living in caves.

    • by jythie ( 914043 ) on Wednesday June 05, 2019 @06:10AM (#58711800)
      If you are going to toss astronomy because of outliers, you might have to toss everything else too. In pretty much any type of research you sometimes get strange data points that you can't immediately explain. I can recall working in particle physics, when we graphed out the distribution of a run there would be a few particles going well over the speed of light or had weird impossible energies associated with them. If someone wanted to put in the effort (which they sometimes would), it was generally possible to examine individual outliers and figure out what went wrong or what actually happened, and we would take that knowledge and attempt to adjust the software to handle such cases better in the future.

      So yeah, one should expect a few weird measurements now and then, if there are not outliers someone is either REALLY good at building their instruments/models or is filtering.
    • by habig ( 12787 ) on Wednesday June 05, 2019 @06:14AM (#58711810) Homepage

      A worry would be if people took the original measurements at face value and didn't replicate the measurement. What we have here is an example of science doing exactly what it's supposed to: people check the measurements, find errors, and fix them. That's sort of the whole point

      So, to answer your question: no one "trusts" measurements. Everyone looks for hints that something can be improved, and goes out and improves them where possible. Usually the new numbers aren't quite so different from the old ones, so you don't read about them in the popular press. Pick up the arxiv or a a journal, and read some of those articles: a huge fraction of them are people doing exactly what science is supposed to do: making new and better measurements, or figuring out how existing measurements can be better interpreted in light of new ones.

      • by ceoyoyo ( 59147 )

        I start a stats lecture with a big black Jobs-like slide with the worlds "all measurements are wrong."

        All data contains noise and bias. You can deal with noise by collecting more data. Dealing with bias, like in this situation, usually involves figuring out where it's coming from and fixing the problem.

        But all data is wrong, no matter how good it is, so you can never trust it beyond the confidence interval*.

        * and all confidence intervals have a little asterisk with a footnote, e.g. "19 times out of 20, prov

      • A worry would be if people took the original measurements at face value and didn't replicate the measurement. What we have here is an example of science doing exactly what it's supposed to: people check the measurements, find errors, and fix them. That's sort of the whole point

        So, to answer your question: no one "trusts" measurements. Everyone looks for hints that something can be improved, and goes out and improves them where possible. Usually the new numbers aren't quite so different from the old ones, so you don't read about them in the popular press. Pick up the arxiv or a a journal, and read some of those articles: a huge fraction of them are people doing exactly what science is supposed to do: making new and better measurements, or figuring out how existing measurements can be better interpreted in light of new ones.

        I think the question the GP was pointing toward, is this a human calculation error that resulted in the closer measurement or an error with the formula used to measure the distance. If the error is human, oops... if the error is with the formula, have all previous galaxies been adjusted for the correction to the formula? If so does this impact other theories, or is it simply a corner case with no impact to the rest of astronomy?

    • by Solandri ( 704621 ) on Wednesday June 05, 2019 @07:06AM (#58711948)
      There's actually an entire branch of math for propagating uncertainty through calculations [harvard.edu]. It was drilled into my head in my engineering coursework, because engineers are almost always dealing with fuzzy or uncertain numbers. I'm pretty sure the sciences are taught this as well, but I don't know if it's emphasized how critical it is. If your measurements had uncertainties, then the numbers you calculated from them also had to have uncertainties or you got no credit.

      (Same goes for carrying units. A number by itself is meaningless. The units must be specified, and should never be assumed. If you don't include units, you end up with what happened to Mars Climate Orbiter [wikipedia.org]. It's frequently characterized as a metric/Imperial units snafu, but it was really a failure to write down units and assuming what the units were. The orbiter could've been lost the same even if everything were done in metric. e.g. The numbers were given in kilonewtons and the people reading them assumed they were newtons.)
      • by lgw ( 121541 )

        Same goes for carrying units. A number by itself is meaningless. The units must be specified, and should never be assumed.

        This is my constant pet peeve in the operations side of software development. It's rare to find a dashboard where the axes are even labelled, let alone labelled with units! Label your damn axes, people! [axeandanswered.com]

        It's exasperating to be looking for which service is misbehaving, and it's unclear whether the response time displayed in the dashboard is in milliseconds or seconds.

    • by dasunt ( 249686 )

      They have identified a 34.3% error in distance measurements. Once corrected, this explains the "singularity" of this galaxy, or more correctly, returns to the unexplained situation that requires some kind of dark matter to explain its behavior.

      Not finding galaxies without dark matter (or dark matter without galaxies) makes me think that the MONAD/TeVeS or another alternative could be possibly correct, versus the current hypothesis of mostly non-baryonic dark matter.

      Now there's some problems with alternat

    • They have identified a 34.3% error in distance measurements. Once corrected, this explains the "singularity" of this galaxy, or more correctly, returns to the unexplained situation that requires some kind of dark matter to explain its behavior.

      While we all understand that science builds on replication and validation of previous experiments and measurements, finding such huge errors makes me quite sad. How confident are other measurements in Astronomy? Can we trust them? After these issues, when presenting other results, people will tend to think that conclusions may probably be wrong but arise from a 30% error in some measurement.

      We live on a rock, and we try to make sense of the electromagnetic radiation that just happens to fall on us.

      That should be, but won't be, sobering. You'll be told that we actually have a great handle on all of this.

  • by Anonymous Coward

    I really hate the dark matter theory. In my mind, if you're relying on dark matter, you may as well ascribe it to God.

    This explanation feels far more comfortable, but lets get some better verification before we accept yet another sketchy theory as rote.

    • by Anonymous Coward

      I really hate the dark matter theory. In my mind, if you're relying on dark matter, you may as well ascribe it to God.

      It is nowhere near that bad. "Dark matter" is some effect we haven't figured out yet, but we may very well find out in the future. Could be as the name implies, some kind of matter that doesn't shine light at us. Maybe better future instruments will be able to see it, then. Could be a different theory for long-range gravitation, which we may be able to measure someday.

      We'll see. Once, they thought it impossible to figure out the chemical composition of a star too.It was impossible, for people who relied o

      • by Junta ( 36770 )

        I presume his gripe is that, at least in popular media, 'dark matter' is not some placeholder theory, it is a very confident statement that there is matter present that we cannot observe for reasons unknown, and that's why our observations don't jive with current theory.

        In reality, it's a placeholder guess to fill the gaps for everywhere our theory based math does not currently work out.

    • Don't worry, The Laws of Physics and universals Constants just "happened" from nothing! /s

      DOH. I mean they have always existed.

      Double DOH!

      ARGH. /s

      The point is, EVERYONE has faith. If you didn't have faith then why do you have your beliefs???

      At some point you have to stand on SOME foundation because otherwise the alternative is the irrational / illogical belief that something can come from nothing. This isn't true regardless of how many stupid Cosmologists and Mathematicians try to show something came from

  • by 3seas ( 184403 ) on Wednesday June 05, 2019 @06:24AM (#58711848) Homepage Journal

    Imagine two objects traveling in the opposite direction each just over half the speed of light. You are on one of them, will you ever be able to see the other?

    • Imagine two objects traveling in the opposite direction each just over half the speed of light. You are on one of them, will you ever be able to see the other?

      Yes. Because Relativity.

      Actually, even without Relativity, you'd be able to see the one from the other. Because light (moving at c) left the one headed for the other (moving at c), so the light would eventually catch up...

      • Bah! Replying to myself (too early in the morning to Preview) - the second "(moving at c)" should be "(moving at lt. c)"
    • Re:Speed of light (Score:5, Informative)

      by necro81 ( 917438 ) on Wednesday June 05, 2019 @07:22AM (#58712004) Journal

      Imagine two objects traveling in the opposite direction each just over half the speed of light. You are on one of them, will you ever be able to see the other?

      Your question pre-supposes that your location as an observer of these two galaxies is special. That you observe one galaxy moving in one direction at 0.5c, and the other moving in the opposite direction at 0.5c, may be correct in your frame of reference, but that hardly makes it the One True Reference.

      In the frame of reference of me (living in one galaxy), what do I observe of the other galaxy. It is, unfortunately, a bit early for me to sort out (plus, I have a day job). But the result will come from applying Special Relativity, in which speeds never add in the "intuitive" way of our everyday experience. After going through the math, I expect you'll find that, in my frame of reference, the speed of the other galaxy is a large fraction of c, but not c itself. At a guess, I'd say it's probably sqrt(1 - 0.5^2 / c^2) = 0.866c, if only because that Lorenz transformation shows up all the time.

      • People who remember everything is relative also tend to forget the one reasonable hallmark we have for an absolute reference frame - the Big Bang remnants. By zeroing out the background radiation to be isotropic you can realize a standard reference frame of an objects speed with respect to the rest of the visible universe. This had to be corrected for when mapping the background radiation due to the earth having an absolute speed that made half the sky of radiation blue and the other half of the sky red.
      • Re: (Score:2, Informative)

        by Anonymous Coward

        But the result will come from applying Special Relativity, in which speeds never add in the "intuitive" way of our everyday experience. After going through the math, I expect you'll find that, in my frame of reference, the speed of the other galaxy is a large fraction of c, but not c itself.

        For anyone who's interested: if two galaxies, in some reference frame, are each moving away from each other at 0.5*c; then, in the reference frame of one of the galaxies, the other galaxy will be moving away at 0.8*c. You can get this by substituting v=u'=0.5*c into the first velocity-addition formula here [wikipedia.org].

    • Imagine two objects traveling in the opposite direction each just over half the speed of sound. You are on one of them, will you ever be able to hear the other?
      • Imagine two objects traveling in the opposite direction each just over half the speed of sound. You are on one of them, will you ever be able to hear the other?

        Yes. Sound still travels at the same speed: 343 m/s. If, for instance, you're standing still, and something is moving away from you at 300 m/s, and at point X it makes a sound... it's not like sound is moving from point X to you at 43 m/s. The sound is traveling at 343 m/s. But the frequency of the sound will be modified by the Doppler Effect. If the sound coming from the second is already low frequency, the shift may be enough that the sound that reaches the first object is too low-frequency to be audible

    • by GuB-42 ( 2483988 )

      Imagine two objects traveling in the opposite direction each just over half the speed of light. You are on one of them, will you ever be able to see the other?

      You did not specify the direction. If they are on a collision course, you are going to see the other one very well soon enough ;)

      Now if they are moving away from each other, more properly formulated, the question would be: an observer sees two object moving away him at a bit more than half the speed of light, in opposite directions. You are on one of them, is the other moving away from you faster than the speed of light. And the answer is no, it is moving away at something like 0.8c, so you will eventually

  • Wake us up when they find some. As far as we know so far, there might not be any.

  • I guess, it is better to think about money saving [promoneysavings.com]. It is always useful :)
  • Existence of Aether have been proven quite some time ago.

    Watching all those "scientist" clowns trying to understand universe based on premise of "vacuum" reminds me of people trying to understand how is it possible to arrive at the same spot if you go east or west when the Earth is - in their understanding - flat.
  • are closer than they appear
    #JurassicGalaxy

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