Another cloud free day in Scotland let me catch almost 9 hours of this huge and lively prom. Taken with my home made 90mm modded Coronado PST and DMK21 camera. Software: CdC, Eqmod, DSSR, AutoStakkert!, Wavesharp, DVS, Shotcut and Gimp.

David Wilson on April 8, 2025 @ Inverness, Scotland

https://spaceweathergallery2.com/indiv_upload.php?upload_id=221951

  • nexguy@lemmy.world
    60·
    5 days ago

    Looks like the video is about 20 minutes of real time per 1 second of video. There are dops of plasma that fall further than the diameter of Earth in less than one in video second… which means the plasma is falling the more than the diameter of Earth in less than 20 minutes. That’s close to 100,000 mph or 160,000 kph. Dang

    • andros_rex@lemmy.world
      20·
      5 days ago

      About 0.01% of the speed of light. I got a Lorentz factor of 1.00000001 so not quite fast enough for relativistic stuff.

      • Sconrad122@lemmy.world
        23·
        5 days ago

        Description says the poster caught 9h of video, but based on the clock watermark in the top left, what is shown is about 7.5h of video (maybe cut for the interesting bits/highest quality) from 0830ish to 1600ish) at a rate of roughly 20 minutes of real time per 1 second video time, as the original commenter pointed out

      • Schmoo@slrpnk.net
        11·
        5 days ago

        They might have soaked fabric or some other material in animal fat (which is just oil that’s solid at room temperature), wrapped it around the end of a stick, and lit it on fire. 🤓🤓

          • SkyeStarfall
            13·
            5 days ago

            Who said you need to catch all of it in a single panel??

            The reason nasa goes overboard (though, not really), is because it’s worth it for space stuff. On the surface we have an abundance of space

          • Serinus@lemmy.world
            11·
            5 days ago

            Modern residential solar panels are around 22-24% efficient.

            And why are you worried about the rest of that energy? You worried it’s gonna be lost?

        • Bezier@suppo.fi
          2·
          5 days ago

          Haven’t seen a solar panel that can take a cloud of plasma many times the size of earth.

            • SkyeStarfall
              7·
              5 days ago

              That’s actually not the worst. It seems doable to produce that much square area of solar panels, even for a civilization like us. We need about 500 000 square kilometers of solar panels on the Earth’s surface to power our global electrical needs. This is within the realm of possibility

              The more tricky part is to actually position it around the sun, that part is what makes it impossible for our current tech level and space infrastructure

              • Flemmy@lemm.ee
                4·
                5 days ago

                Yeah the possibilities of a solar field on the moon is much more sensible.

      • adr1an@programming.dev
        3·
        5 days ago

        Corn has been doing that. We only need to wait for the oil lobby to die and then science will probably figure things out…

      • Ledericas@lemm.eeEnglish
        3·
        5 days ago

        tng dyson sphere, except the star end up killing or causing the civilization to abandon the sphere.

  • trotfox@lemmy.world
    62·
    6 days ago

    It’s crazy this guy is just doing this on his own. Looks like something from NASA to me.

  • 1luv8008135@lemmy.world
    54·
    5 days ago

    So dumb question, but what’s causing the gap between the plasma cloud(?) and the surface? And is that gap filled with something that is invisible?

    • crapwittyname@lemm.ee
      84·
      5 days ago

      Plasma is electrically charged, so it interacts with magnetic lines.
      The sun has magnetic field lines just as the earth does. It also rotates. But- since it’s not solid, it doesn’t have to rotate all at the same speed. The plasma in fast-rotating regions drags the field lines further than the plasma in slow rotating areas, creating weird loops, breaks and reconnections in the field lines. I’m almost certain that what we’re seeing in this lovely bit of photography is a cloud of plasma travelling across, or trapped by one of those rogue field lines which has been pushed upwards from the surface by differential rotation.

    • niktemadur@lemmy.world
      35·
      5 days ago

      The dynamics there due to sheer gravity, magnetism and levels of energy/radiation that are utterly alien to our daily experience.

        • perestroika@lemm.ee
          20·
          5 days ago

          A guess: doubly ionized helium vs. singly ionized helium. They absorb different amounts of radiation (have different opacity). At high opacity it gathers heat and subsequently expands. At low opacity it lets the heat pass through, subsequently cools and condenses.

          (This is the mechanism that makes Cepheid stars regularly and predictably change intensity. The same mechanism is probably present in other stars too, and causes local processes that we cannot observe from another star system… but can observe in the Sun.)

          Alternatively, there could be a multitude of other effects doing something similar.

          • niktemadur@lemmy.world
            2·
            4 days ago

            This is the mechanism that makes Cepheid stars regularly and predictably change intensity

            Doesn’t it also make the Cepheid noticeably swell (then deflate) in circumference? Or does it maintain the same basic size, and it’s just storing magnetic bubbles of hot plasma like a halo, before bursting and releasing all that accumulated material?

            • perestroika@lemm.ee
              2·
              4 days ago

              To my understanding they do chance circumference. The opaque doubly ionized helium forms at high temperature, expands until temperature drops (change in circumference), drops to singly ionized after expansion, and gets doubly ionized again after contraction (another change in circumference). In Cepheids, it’s uniform across the whole star.

              Thus, your question makes me doubt my original speculation that it’s helium changing ionization levels. The way some material “climbs up” into the arc in this video (from the right end, at one point of time) while other material “rains down” make a magnetic explanation (proposed by others here) seem more plausible.

  • gcheliotis@lemmy.world
    35·
    5 days ago

    Absolutely amazing that you could capture that with “amateur” equipment, although it is clear from your post that a lot went into this. Bravo!

  • Sgarcnl@lemmy.world
    18·
    5 days ago

    If the earth to scale is accurate, the drops coming to the surface might be approximately close to the land mass of a large continent.

  • Higgs boson@dubvee.orgEnglish
    11·
    5 days ago

    Another cloud free day in Scotland let me catch almost 9 hours of this huge and lively prom.

    As soon as I read the word “Scotland”, my brain went back and revised this to be read in Scott Manley’s voice.