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  • Our sun and the earth, and all the planets and moons and dwarf planets

  • and asteroids and comets... The Solar System in short

  • formed about 4.6 billion years ago from a nebulous cloud

  • of swirling gas and dust which coalesced thanks to the irresistibly

  • attractive force of gravity.

  • attractive force of gravity.

  • However, theis nebula started off more or less as a big shapeless blob

  • So how did our solar system end up with all the planets

  • and their moons orbiting in a flat disk?

  • I mean, we've all seen the planetary model of the atom,

  • which is definitely wrong when applied to atoms

  • but it also kind of suggests that planets might revolve

  • around the sun every which way.

  • So is our solar system somehow special in its flatness?

  • Or is the planetary model of the atom doubly wrong?

  • Well, our solar system definitely isn't alone,

  • many exoplanets; star systems are flat,

  • a lot of galaxies are flat,

  • black hole accretion disks are flat,

  • Saturn's rings are flat,

  • etc.

  • So why, when there's all of 3D space to fill,

  • does the universe have this preference for flatness?

  • The answer has to do with two things, collisions

  • and the fact that we live in three dimensions.

  • Bear with me.

  • Anytime a bunch of objects held together by gravity are zooming and circling around

  • their individual paths are nearly impossible to predict,

  • and yet, collected together they have a single total amount

  • that they spin about their center of mass.

  • It may be hard to figure out exactly what direction that rotation is in

  • but the mathematics implies there must be some plane

  • in which the cloud -taken as a whole- spins.

  • Now, in two dimensions a cloud of particles rotating in a plane

  • is flat by definition, it's in two dimensions.

  • But in three dimensions, even though the rotation of the cloud is given

  • by one plane, particles can whiz around far up and down from that plane.

  • As the particles bump into each other, all the up and down motion

  • tends to cancel out. It's energy lost in crashing and clumping.

  • Yet the whole mass must continue spinning inexorably,

  • because in our universe, the total amount of spinning in any isolated system

  • always stays the same.

  • So over time through collisions and crashes, the cloud loses its loft

  • and flattens into a spinning, roughly 2 dimensional disk shape, like a solar system or a spiral galaxy.

  • However, in 4 spacial dimensions, the math works out such that

  • there can be two separate and complementary planes of rotation

  • which is both really really hard for our 3D-thinking brains to picture

  • and also means there's no up and down direction in which particles lose energy by collisions.

  • So a cloud of particles can continue being just that... a cloud.

  • And thus, only in three dimensions can a nebula or infant galaxy

  • start out not flat and end up flat

  • which is definitely a good thing because we need all that matter to clump together

  • in order for stars and planets to form, and for us,

  • -even those of us who think atoms look like this-

  • to exist.

Our sun and the earth, and all the planets and moons and dwarf planets

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なぜ太陽系は平らなのか? (Why is the Solar System Flat?)

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    Jason に公開 2021 年 01 月 14 日
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