Our solar system mostly revolves around the sun on the same axis (apart from Pluto). Our galaxy does the same (along with other galaxies). Why? Gravity is linear?

Would it matter if we tried to escape the sun’s gravity by going “up?”

  • BearOfaTime@lemm.ee
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    1 month ago

    Keeping in mind the object with the larger mass will (over those millions of years) pull the smaller object closer in all dimensions/planes

    It’s still hard for me to get my head around, it would be great to see an animation showing this with perhaps 3 or 4 objects. It’s especially hard for me to visualize the gas cloud around a star coelescing into a plane, even before the more solid objects form.

    Is this because of rotational mechanics around the star?

    • snooggums@lemmy.world
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      1 month ago

      So, the star and planets all started as one big gas nebula, then the nebuka as a whole started spinning due to uneven distribution of matter within the cloud as it condensed. This spin increased over time and as the sun formed in the center, and planets clumped around in its orbit. The spin relative to each other, along with some interesting collisions between massive bodies, is why a few don’t fit the general mold of spinning the same ways on the same plane. We may have even picked up a planet or two over time that was ejected from another solar system!

      This video does an ok job of explaining the spinning and planet formation part. I’m sure thete are better ones out there.

      https://m.youtube.com/watch?v=sCkhEu3lYNc