Two supermassive black holes are locked in an orbital dance at the core of the distant galaxy OJ 287. This diagram shows their sizes relative to the solar system. The larger one, with about 18 billion times the mass of our sun (right), would encompass all the planets in the solar system with room to spare. The smaller one is about 150 million times the mass of our sun (left), which would be large enough to swallow up everything out to the asteroid belt, just inside the orbit of Jupiter.

https://www.spitzer.caltech.edu/image/ssc2020-11b-sizes-of-black-holes-in-galaxy-oj-287-relative-to-the-solar-system

  • peopleproblems@lemmy.world
    link
    fedilink
    English
    arrow-up
    0
    ·
    13 days ago

    Yeah. Technically you aren’t screwed unless you are in an orbit that crosses the event horizon.

    Although I wonder if the accretion disk produces enough drag that an orbit could eventually fall into the black hole.

    Also, time gets funky when you get closer and closer to the black hole.

    But in any case the behavior is the same. It’s just a lot bigger.