or just a ‘poof’?

  • cevn@lemmy.world
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    3 months ago

    Fascinating. Lets say at 90% the planet spends 1 second inside the sun. Doesn’t seem like enough to melt the whole thing so it just keeps going, just a lot smaller. The core of the sun tried its best to push it back but gets pierced and the fusion reaction stops. Star killer??

    • peopleproblems@lemmy.world
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      3 months ago

      Another comparison here. If a human was just made of ballistics gel, weight for weight, meaning no vital organs or anything, a 10g round would hit a target it 1/9000 the side of.

      Earth, hitting the sun would be like something 1/800000 this size of.

      Oh shit my lunesta kicked in. Someone better double check my numbers

    • peopleproblems@lemmy.world
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      3 months ago

      Edit: I was off by a big order of magnitude, see my reply to this comments reply.

      No. You are also forgetting the density of the sun increases with depth. For instance, if it’s heading for the core - the solar core is about 155g/cm^3. Where as earth is 5.5g/cm3.

      Essentially, going 0.9C is going to impact the sun, and we can say the incoming earth object is going to classically hit with 4.9*10^24 J.

      At this size and and energy, we compare it to the rest energy of the entire sun (this isn’t how we would actually do it) but the sun has a total resting mass energy equivalence of like 1.8x10^41 J.

      The energy of the earth like object impacting the sun is 0.000000000000000027%.

      The sun effectively doesn’t even know it happened.

      • cevn@lemmy.world
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        3 months ago

        I knew my crap science would get the real scientists in the comments, good point about the density. It would just sort of harmlessly splat.

        • peopleproblems@lemmy.world
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          3 months ago

          Now hold on, I did my math wrong. It was far too late at night. I used C=300000 not 3*10^8.

          That gives us an impact energy, classically, of 5.37*10^41 J.

          So that is about 3 times the kinetic energy than the engery at rest of Sol.

          Sol is not at rest, further, we have non- insignificant factors at play here.

          Sol is orbiting Sagittarius A* at 250km/s. Additionally, we have the general relativistic relationship between Sol and our massive projectile.

          I’m going to work on modeling this, it got far more interesting.