I was watching a SciFi tv show where large objects had an outer speed limit of 18000 kph and that got me wondering what things in everyday life are faster than even 500 kph.

I know bullets can be fast, but they are not exactly everyday life (at least in my life).

I included mass for obvious relativistic reasons.

  • YiddishMcSquidish@lemmy.todayEnglish
    2·
    5 hours ago

    Neutrinos. About 100 trillion go through you every second with about .000001 percent interacting with you. And they have a non zero mass.

  • trolololol@lemmy.world
    3·
    10 hours ago

    Rockets?

    International space station goes around the earth at about 7km/s if I recall correctly. And it’s quite big.

    That’s the kind of speed of any rocket going to meet with ISS or being put into earth orbit. Things reentrying from orbit hit the atmosphere at about that speed too.

    Things going or coming to the moon need slightly more, I think ballpark is 10km/s, and above that you’re travelling to Mars, asteroids, Venus, Jupiter, etc etc.

      • trolololol@lemmy.world
        2·
        6 hours ago

        I get your point but I’ll nitpick anyways:

        Isn’t satellites as much part of everyday life as submarine internet cables, and our lives would be radically different without satellites but having only submarine cables?

        Or do we need to see them to believe it?

        • PeriodicallyPedantic@lemmy.ca
          1·
          5 hours ago

          Hmmmm that’s a good point.

          I still wouldn’t count that as every day life because you’re not physically interacting with the satellite or submarine internet cables, even if you’re interacting with the effects of their existence.

          But now I have to justify why my stance of “being physically near but still unable to see or touch directly” (as an internal mechanism of something) is any more “everyday life”. It feels like an internal mechanism counts as just as every-day as the thing its a part of, but is it really?

          I don’t have a solid justification. It just feels different to me.

  • LaLuzDelSol@lemmy.world
    4·
    11 hours ago

    Hmm how about CRT monitors/televisions? Not that common these days but they are basically little particle accelerators that shoot electrons at a pretty good fraction of the speed of light (like 30%). But I guess that’s not really an answer to you question unless you define electrons as objects. I guess my other answer would be airbags which deploy at about 300 kmph

  • stringere@sh.itjust.works
    12·
    15 hours ago

    Mantis shrimp punches travel 12 to 23 meters per second (approximately 27 to 51 miles per hour) in water the acceleration involved can reach up to 10,000 Gs.
    The peak force generated by a mantis shrimp’s punch can be as high as 1500 Newtons, which is over 2500 times the animal’s own body weight.
    The acceleration of their punch is such thay it creates a cavitation bubble which, when it collapses, can generate 8,500 degrees Fahrenheit – nearly as hot as the sun’s surface at 10,000 degrees Fahrenheit.

    We named ours Smeagol.

    • yermaw@sh.itjust.works
      6·
      13 hours ago

      The Mantis Shrimp is one of the few things that make me question pure raw evolution. How the fuck can you just evolve a sci fi plasma pistol?

  • SirSamuel@lemmy.world
    61·
    22 hours ago

    The shortest unit of time in the multiverse is the New York Second, defined as the period of time between the traffic lights turning green and the cab behind you honking.

    • Terry Pratchett, Lords and Ladies
    • Headofthebored @lemmy.world
      4·
      17 hours ago

      I wonder where that thing is nowadays. Probably landed in the ocean somewhere, or even burned up if it didn’t just flat out leave earth orbit.

      • GreyEyedGhost@piefed.caEnglish
        11·
        15 hours ago

        I’m pretty sure the article iIread said it had more than enough speed to reach escape velocity, but would have ablated/vaporized before doing so.

    • PeriodicallyPedantic@lemmy.ca
      1·
      6 hours ago

      I think that “with some mass” wasn’t meant literally but figuratively, specifically to exclude things like shooting subatomic particles.

      I think OP means the kinda of things humans interact with and are able to perceive in their every day life.

  • ch00f@lemmy.world
    41·
    23 hours ago

    Glass cracks propagate at an absurdly fast rate. Something like 4x the speed of sound (1400m/s). Not a physical thing moving, but very common.

      • gloktawasright@lemmy.world
        7·
        17 hours ago

        It seems that depending on the type of glass and the direction of the waves (longitudinal, shear, or Extensional) the speed of sound in glass can be between 2300-6000 m/s

        Longitudinal is the type we normally think of though, and that is between 3900-5600 m/s. Which is still much more variation than I was expecting.

        The speed of sound in air is around 340 m/s depending on temperature.

        So if the op is correct about the speed, then it seems the cracks propagate slower than the speed of sound in glass.

        https://www.engineeringtoolbox.com/sound-speed-solids-d_713.html

      • NeatNit@discuss.tchncs.de
        10·
        22 hours ago

        Slow Mo Guys on YouTube have filmed glass cracking and calculated its speed many times. Very lovely channel that I recommend!

    • abbadon420@sh.itjust.works
      75·
      23 hours ago

      OP specifically asked for something with mass. This is not a thing with mass. This is the same as saying a shadow can move faster than the speed of light.

  • quediuspayu@lemmy.dbzer0.comEnglish
    9·
    18 hours ago

    When uncorking a champagne bottle, the gasses inside expand so fast that the white mist it can usually be seen is actually frozen CO2

    • Mesa@programming.dev
      1·
      17 hours ago

      This is my high school chemistry talking here, but don’t expanding gasses heat up? Ideal gas law and everything? Is there something weird happening like the CO2 instantaneously pressurizing or something right before expanding?

        • Mesa@programming.dev
          2·
          15 hours ago

          I remember there being something misleading about the “temperature” in pV=nRT, but yeah, I think I was getting confused because I was thinking about it purely formulaicly.

          But if the pressure drops and the volume of the gas increases, in order for it to cool, that would mean the drop in pressure is much less significant than the rise in volume?

          But yeah, I should’ve remembered that expanding gasses cool, because I know how aerosol cans work. It’s time to touch up on this stuff lol.

          • flubba86@lemmy.world
            1·
            12 hours ago

            I had a similar conversation with my wife a few weeks ago. We were watching the hydraulic press channel, where they were compressing water to very high pressures. When the water inevitably squirted out of the chamber, it turned to steam. My wife said yeah that makes sense, applying that much energy to compress the water would increase its temperature, so it wants to expand to become steam. Then I thought about it a while, and said wait, according to first principles of thermodynamics, shouldn’t compressing water lower it’s temperature?! The turns out the real world is correct, I was wrong.

            • trolololol@lemmy.world
              1·
              10 hours ago

              You’re mixing cause and effect.

              The effect of lowering temperature is shrinking gases. If you force a gas to shrink it will increase temperature.

  • lgsp@feddit.it@feddit.it
    33·
    24 hours ago

    Satellites are visible and move at some km per second. Pretty fast

    Inside the atmosphere anything faster than some hundreds km/h get so much drag that they either are extremely small (bullets) or extremely powerful (planes, maglev trains)