Three Body Problem Spoiler:
“Hold my vector foil”
cry harder
Submitted 5 days ago by fossilesque@mander.xyz to science_memes@mander.xyz
https://mander.xyz/pictrs/image/95db5788-405d-47c7-bd05-1f7b0c6a1157.png
Submitted 5 days ago by fossilesque@mander.xyz to science_memes@mander.xyz
https://mander.xyz/pictrs/image/95db5788-405d-47c7-bd05-1f7b0c6a1157.png
“Hold my vector foil”
argentcorvid@midwest.social 5 days ago
Didn’t get much farther than Calc 1; is this a fancy way of saying “Earth is flat in three dimensions”?
OccamsTeapot@lemmy.world 4 days ago
It’s been a while so bits of this might be wrong. Manifolds give me PTSD.
A euclidean space is one where pythagoras’ theorem is true, like on a piece of paper. Even if you roll up the paper, everything still works the same. The angles of a triangle still add to 180 etc
But the surface of a sphere doesn’t work like that. You can’t fold up the paper into a sphere, it’s fundamentally different. Geometry changes a bit on the surface too, and you have to modify pythagoras theorem for it to describe triangles in one of these spaces. And the internal angles don’t add to 180 anymore.
These are non-euclidean spaces, aka Riemannian spaces.
So the meme is saying “ha ha you’re on a non-Euclidean space dumb dumb! Why don’t you draw a big triangle, measure the angles and then cry yourself to sleep?”
kogasa@programming.dev 4 days ago
A Riemannian manifold isn’t necessarily non-Euclidean, it’s just a smooth manifold with a Riemannian metric, which is just sort of a way of defining local geometry in a coherent way. Namely it’s a smooth family of inner products on the tangent spaces at each point, where an inner product on the tangent space is sort of a way of comparing any two directions at a point and the smoothly varying part means that for sufficiently close points, the comparison function on their respective tangent spaces is similar.
Anyway, like “manifold” is a formalism intended to capture the idea of a “shape or space,” a “Riemannian manifold” is just “a shape or space we can do geometry on.”
argentcorvid@midwest.social 4 days ago
soooo…
no?
(lol)