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Atlas V's Sonic Boom Made Visible By Sundog

Posted by timothy on from the right-time-and-place dept.

Ross-Shire Geek writes "Atlas V lifted off on Feb 11 from Kennedy. As it goes supersonic through a sundog (aka parhelion) you can see (video link) wonderful visible ripples of the shock wave in the sky."

3 of 99 comments (clear)

  1. Re:Wow by Anonymous Coward · · Score: 5, Informative

    To skip the first ~2minutes and cut to the... ripples: http://www.youtube.com/watch?v=SsDEfu8s1Lw#t=1m51s.

    And for even more karma whoring: "A sun dog is a prismatic bright spot in the sky caused by sun shining through ice crystals. The Atlas V rocket exceeded the speed of sound in this layer of ice crystals, making the shock wave visible from the ground."

    So I guess the normal compression wave by a sonic boom is not enough to alter the way light goes through it (think flickering air when looking across a heated highway), but these ice crystals do the trick. Right?

  2. Second POV by oneiros27 · · Score: 5, Informative

    Closer to the pad, and less shaky:

    http://www.youtube.com/watch?v=q9S0z1ofcIc

    (it has the voiceover from NASA TV, but doesn't have the launch clock visible ... it might've been a camera angle that they didn't use live, as I don't remember seeing this on TV)

    --
    Build it, and they will come^Hplain.
  3. Sonic boom or not? Math by goodmanj · · Score: 5, Informative

    Some debate here as to whether what we're seeing is a sonic boom, or just loud low-frequency sound waves. Let's do the math...

    Basic question: is the rocket going at Mach 1 or greater when the phenomenon happens?

    In the video, the launch happens at 0:38, and the ripples are seen at 1:53, 75 seconds later.

    Here's a handy document showing the launch profile of an Atlas V. It doesn't show velocity vs time, but on page 19 there's an acceleration vs time graph for the Atlas V 401, the specific vehicle used in this launch. It shows the average thrust during the first 75 seconds is 1.4 +/- .05 g's (uncertain because I can't read the graph that accurately.)

    Subtract out 1 g for gravity pulling the rocket down, to get a vehicle acceleration of 0.4 +/- 0.05 g, which over 75 seconds will lead to a final velocity of 294 +/- 36 m/s.

    The speed of sound is 330 m/s. So at the time we see the ripples, the rocket is riiiiight about at the speed of sound, maybe a little over, maybe a little under, impossible to tell.

    This transition to supersonic flow is often chaotic and irregular, which would explain the intense but complicated ripples seen. If the rocket was going at mach 2 or 3, we'd see a perfectly shaped set of concentric rings; if it was going at far less than mach 1, we'd see nothing at all.