Hey folks! Here’s a pinned post where you can ask science questions!

Here’s a quick rundown of what this post is and isn’t:

  • This is a place where you can ask science-related questions!
  • This is a place to provide science-based answers to others’ questions!
  • This isn’t reddit’s askscience community. By this I mean we don’t have the resources (or, really, desire) to vet users’ credentials, and you shouldn’t expect that whoever is answering your question is necessarily an expert. That said, this community does have a large share of professional scientists and engineers, and I’m hoping that those folks will be interested in sharing their expertise when they can.
  • This isn’t a place to ask for medical advice – since we can’t vet qualifications these kinds of questions won’t be allowed here in the interest of preventing harm, and I’ll remove any comments that ask personal medical questions. If you have a question about medicine that’s not asking for advice, that is fine and allowed.
  • This isn’t the only place on this community where you’re allowed to ask questions! If you have a question related to another post, ask in the comments there. If you have a question not related to another post, I’d like it if you tried asking here first (to help this thread gain some traction), but you’re also free to ask in a separate post if you’d prefer (or both).

I’m going to post this inaugural thread with no set expiration date. I’m currently thinking a new thread maybe every 2–4 weeks, but I’d like to see what the volume of comments here ends up being like before deciding for sure.

  • realChem@beehaw.orgOP
    link
    fedilink
    arrow-up
    2
    ·
    1 year ago

    I’ll start us off with a biology question:

    One thing I’ve always been really interested in is biomineralization, especially as it relates to single-celled organisms like diatoms and magnetotactic bacteria. But it seems like moving solid crystalline materials around inside a cell (or from the inside out, I assume, in the case of diatoms?) would be much more difficult than moving around liquids or bendy organic molecules. How do cells manage to do this?

    • CrateDane@feddit.dk
      link
      fedilink
      arrow-up
      1
      ·
      1 year ago

      It’s probably formed outside the cell, with some extracellular matrix nucleating the crystal which is then built from ions pumped out by transport proteins.

      In humans you can compare cartilage with bone. Cartilage is mostly organic extracellular matrix, where bone simply adds deposited calcium carbonate in between the extracellular matrix (where the water would be in cartilage).

  • potpie@beehaw.org
    link
    fedilink
    arrow-up
    1
    ·
    1 year ago

    Okay so, it’s common for people to talk about distant stars as appearing one way because the light takes (mi|bi)illions of years to get to us, and that makes perfect sense to me… But when they go on to say that, for instance, Betelgeuse has already gone supernova but we won’t see it until the light gets to us…

    According to the principle of the relativity of simultaneity, since the speed of light is the speed of causality, wouldn’t it be a bit more accurate (though definitely more confusing to the public) to say that the stars actually are as we observe them, but that the star is far enough away that traveling to it, even instantly, would basically require significant time travel forward? I guess it would just be a different way to talk about “the present” in relativistic terms, which is only difficult because our languages never evolved to handle the concept.

    What you think?