Why are our planets in the solar system all on the same disc/plane/layer?

I always see pictures of the solar system where our sun is in the middle and the planets surround the sun. All these planets move on orbits on the same layer. Why?

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Possible duplicate: physics.stackexchange.com/q/8502/2451 Related: physics.stackexchange.com/q/12140/2451 and links therein. – Qmechanic Sep 6 '13 at 8:21

We haven't ironed out all the details about how planets form, but they almost certainly form from a disk of material around a young star. Because the disk lies in a single plane, the planets are broadly in that plane too.

But I'm just deferring the question. Why should a disk form around a young star? While the star is forming, there's a lot of gas and dust falling onto it. This material has angular momentum, so it swirls around the central object (i.e. the star) and the flow collides with itself. The collisions cancel out the angular momentum in what becomes the vertical direction and smear the material out in the horizontal direction, leading to a disk. Eventually, this disk fragments and forms planets. Like I said, the details aren't well understood, but we're pretty sure about the disk part, and that's why the planets are co-planar.

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Very interesting, I've been wondering about this everysince I learned what a solar system was. +1 – OmnipresentAbsence Mar 16 '13 at 14:20
I find this clearer: With a heavy enough cloud left around the just collapsed cloud (=sun), 2 reasons often evade further collapse into the sun. 1. Solar wind 2. The angular momentum. Subtracting this attraction towards the center leaves a kind of "net attraction" perpendicular to it (in each point of the cloud). So logically this eventually forms a disk with the net angular momentum. (There is a chance for some chunks to not follow the disk, but it becomes smaller with its deviation and with each additional one. Pluto?) Similar:en.wikipedia.org/wiki/Protoplanetary_disk#Formation – e-motiv Mar 4 '14 at 11:16
My question is why can there not exist, say, two orthogonal axis of rotations, for various planets to revolve around and not colliding? – Hans Jul 9 '14 at 18:04
@Hans Then the discs would intersect and their material would interact, dispersing and rearranging the material into a more stable configuration. What that configuration is depends on the initial conditions. – zibadawa timmy Oct 24 '14 at 6:46
@Hans Sorry, I missed the planets part and was thinking dust. For planets the gravitational interactions will make the orbits chaotic over time, unless they are far apart. Get too far and you're unlikely to align on a plane. The Oort cloud is spherical rather than planar, for example. Closer to the star and the angular momentum, collisions, and interactions during the system's beginning stages will flatten things to nearly coplanar. – zibadawa timmy Oct 24 '14 at 15:23

It is a plane because we are orbiting the center of the galaxy very fast. Our eliptic is realy a spire with the sun the most massive object of our solar system draging us around with it.

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protected by Qmechanic♦Sep 6 '13 at 8:14

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