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Spinning Black Hole's Edge Rotates At Nearly the Speed of Light

Posted by Soulskill on from the you-must-be-this-tall-to-ride-the-black-hole dept.

astroengine writes "Astronomers have directly measured the spin of a black hole for the first time by detecting the mind-bending relativistic effects that warp space-time at the very edge of its event horizon. By monitoring X-ray emissions from iron ions (iron atoms with some electrons missing) trapped in the black hole's accretion disk, the rapidly-rotating inner edge of the disk of hot material has provided direct information about how fast the black hole is spinning. Astronomers used NASA's Nuclear Spectroscopic Telescope Array (NuSTAR) — that was launched into Earth orbit in June 2012 — and the European observatory XMM-Newton measured X-ray radiation as a tool to directly infer the spin of NGC 1365's black hole. 'What excites me is the fact that we are able to do this for the very massive black holes at the centers of galaxies but we can also make the same measurement for black holes in our galaxy ... black holes that resulted from the explosion of a star ... The fact we can extend this from billions of solar masses to 10 solar masses is pretty cool,' Fiona Harrison, professor of physics and astronomy at the California Institute of Technology, Pasadena, Calif., and principal investigator of the NuSTAR mission, told Discovery News."

16 of 227 comments (clear)

  1. know your audience by Anonymous Coward · · Score: 5, Funny

    i love how this summary explains what an ion is, but assumes i know the definitions of black hole, x-ray, and solar mass. great writing, folks!

    1. Re:know your audience by 140Mandak262Jamuna · · Score: 5, Funny

      Till I read the summary I thought ion is a iron with the letter r removed. Now I know what is removed is not r but electrons. Got it.

      --
      sed -e 's/Chuck Norris/Rajnikant/g' joke > fact
    2. Re:know your audience by K.+S.+Kyosuke · · Score: 4, Insightful

      i love how this summary explains what an ion is, but assumes i know the definitions of black hole, x-ray, and solar mass. great writing, folks!

      You forgot "space-time", "event horizon" and "accretion disk".

      I'm also astounded by the discovery of black holes resulting from an explosion of a star. So far I thought that a black hole is a result of an implosion of a star. This is a major new discovery!

      --
      Ezekiel 23:20
    3. Re:know your audience by nedlohs · · Score: 5, Insightful

      That's the point. It wastes a bunch of words explaining what an ion is.

      If you don't know what an ion is the rest of the words are going to make any sense anyway.

    4. Re:know your audience by smpoole7 · · Score: 5, Informative

      > I'm also astounded by the discovery of black holes resulting from an explosion of a star.

      Really massive stars (greater that 250 solar masses -- i.e., 250 times as massive as our own Sun) most assuredly do explode, and *very* violently, leaving behind a black hole. It's believed that this is a key source for gamma ray burst events. It's also thought that many of the first stars in the universe, not long after the Big Bang, exploded this way, spewing jets of metals at relativistic speeds.

      To be fair to you, it's now known that there are actually several different types of supernova. Some core collapses do occur without a big earthshattering "kaboom." The really massive stars explode due to photodisintegration, and result in a hypernova -- a ridiculously intense, you-don't-want-to-be-within-a-hundred-light-years kind of thingie. :)

      http://en.wikipedia.org/wiki/Photodisintegration

      http://en.wikipedia.org/wiki/Supernova

      --
      Cogito, igitur comedam pizza.
    5. Re:know your audience by maxwell+demon · · Score: 4, Funny

      No no, a mass is what happens in a Church you heathen.

      Ah, now I understand why the Higgs particle is the god particle: It is causing what happens in a Church!

      --
      The Tao of math: The numbers you can count are not the real numbers.
    6. Re:know your audience by pyro_peter_911 · · Score: 4, Informative

      In that US region almost everyone would deny all of this, no matter of the education level. The light coming from the accretion disk of that black hole is coming here from before 6000 years ago, when the universe, earth, man, and everything else was created by the almighty god.

      I'm an atheist with a college degree who works daily with salt of the earth types in the Bible Belt. In general, physics understanding is spotty around here but actual Young Earthers are extraordinarily rare (to the point where I've never actually met one). You're unlikely to find someone who can tell you the difference between weight and mass and if you want them to use a torque wrench make your specs in foot pounds instead of Newton meters. However, pictures of Jesus riding a T-Rex are taken as ridiculous jokes since, obviously, they weren't contemporaries.

      Hell, the guys in the oil and gas industries make their fucking paychecks based on a fundamental understanding of geology, evolution, and the time scales involved.

      You may want to question your assumptions more in the future if you would like your worldview to more accurately reflect reality.

      Peter

      --
      Downsize DC Today!
  2. Re:My thought... by dreamchaser · · Score: 4, Insightful

    You might as well say it's because they are made of rainbows and ponies unless you have math to support your theory.

  3. Re:WRONG! by thechemic · · Score: 5, Funny

    I had a Honda Civic that could go the speed of light. It sucked because nothing ever showed up in the rear view mirror.

    --
    Let's make like a bird... and get the flock outta here.
  4. light is influenced by gravity by Anonymous Coward · · Score: 5, Informative

    http://helios.gsfc.nasa.gov/qa_sp_gr.html

    " Yes, light is affected by gravity, but not in its speed. General Relativity (our best guess as to how the Universe works) gives two effects of gravity on light. It can bend light (which includes effects such as gravitational lensing), and it can change the energy of light. But it changes the energy by shifting the frequency of the light (gravitational redshift) not by changing light speed. Gravity bends light by warping space so that what the light beam sees as "straight" is not straight to an outside observer. The speed of light is still constant."

    Dr. Eric Christian

  5. Seems obvious to a naive engineer! by 140Mandak262Jamuna · · Score: 4, Insightful

    In my limited understanding of these things, (mostly from articles meant for mass consumption, not scholarly journal papers), I imagine a black hole to be so massive not even light can escape its gravitational pull. Which technically means the escape velocity is the speed of light. So anything at the event horizon should be at the speed of light. This is of course, a naive view. The escape velocity is based on Newtonian, not Relativistic, physics.

    --
    sed -e 's/Chuck Norris/Rajnikant/g' joke > fact
    1. Re:Seems obvious to a naive engineer! by Anonymous Coward · · Score: 4, Insightful

      Light doesn't have a rest mass, but it most certainly has momentum. Perhaps you need to review what E=MC^2 means, Light is affected by gravity as witnessed numerous times in astonomy. Perhaps your "ARGGG!!!" should be directed at yourself.

    2. Re:Seems obvious to a naive engineer! by rocket+rancher · · Score: 4, Interesting

      In my limited understanding of these things, (mostly from articles meant for mass consumption, not scholarly journal papers), I imagine a black hole to be so massive not even light can escape its gravitational pull. Which technically means the escape velocity is the speed of light. So anything at the event horizon should be at the speed of light. This is of course, a naive view. The escape velocity is based on Newtonian, not Relativistic, physics.

      In Einstein's theory of general relativity, the Newtonian concept of mass doesn't really exist, being spread out over the Einstein curvature tensor on one side of the general relativity equation and the stress energy tensor on the other. Calculating the radius of a gravitational field where the escape velocity is equal to c is straight forward in both Newtonian mechanics and general relativity, and produce the same value, the so called event horizon (Scharzschild radius, technically) but something interesting happens when the gravitational field is generated by a rotating object -- it drags spacetime around with it. This would cause the orbital plane of an object to precess, something that Newtonian mechanics completely misses but was predicted nearly a century ago when people first started exploring solutions to Einstein's equations. Being able to directly arrive at the rotational rates of a wide variety of blackholes (which is what this announcement is all about) means that both frame-dragging and the no-hair conjecture concerning the characterizability of blackholes with just three Newtonian values -- mass, charge, and angular momentum -- can in principle now be studied more rigorously.

  6. Re:Is the hole rotating, or just the disk? by Anonymous Coward · · Score: 5, Insightful

    By monitoring X-ray emissions from iron ions (iron atoms with some electrons missing) trapped in the black hole's accretion disk, the rapidly-rotating inner edge of the disk of hot material has provided direct information about how fast the black hole is spinning.

    So the summary indicates that measuring the accretion disk somehow tells them exactly how fast the non-emitting portion is spinning.

    The useful answer is in the link from the above quote:

    Risaliti and his colleagues measured X-rays from the center of NGC 1365 to determine where the inner edge of the accretion disk was located. This Innermost Stable Circular Orbit - the disk's point of no return - depends on the black hole's spin. Since a spinning black hole distorts space, the disk material can get closer to the black hole before being sucked in.

    So they calculated the spin of the black hole by comparing the observed orbit to the calculated orbits possible from the calculated mass based on observable gravitic effect on nearby objects. Yes, there's uncertainty there, but until someone discovers a new detail in astronomy, that's as accurate as we can get.

  7. Re:Spin equal to mass? by Anonymous Coward · · Score: 4, Informative

    No. Black holes are not dark matter. Well, I mean, yeah, they are dark. Like black dark. Like "how much more dark could they be? None, none more dark." But they are normal matter, not dark matter. The mass of (nearby) galactic core black holes is easily measured by measuring the speed of closely orbiting stars. Their velocity is entirely dependent on the mass inside their orbit, so no need to invoke dark matter.

  8. Re:WRONG! by Chris+Burke · · Score: 4, Interesting

    Light has momentum (which "require" mass in more classical thinking). Light is "moved" by gravity (which indicates mass)

    Also light has energy which is mass in Relativistic thinking, and is moved by (and moves other things by) gravity which is due to it's energy (same as mass).

    This is confusing because people think of "mass" as the things photons don't have and matter does (which is true if we mean intrinsic mass), but also think of "mass" as the thing which effects/is affected by gravity and makes objects resist acceleration, when that's actually the relativistic mass (= energy).

    It's both a particle and a wave, thus *is* a particle.

    A photon is a quantum mechanical particle, which is a thingie which behaves kinda like a classical particle and kinda like a classical wave but not exactly like either.

    However the key thing about quantum mechanics is that stuff is quantized... like particles are. So we call them particles. There is no misconception in doing so.

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    The enemies of Democracy are