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Moon's Bulge Explained

Posted by ryuzaki0 on from the put-some-cream-on-that dept.

anthemaniac writes "The moon has an unexplained bulge that astronomers have been trying to find a source for since 1799. Finally, an apparent answer: The equatorial bulge developed back when the developing moon was like molasses (and you thought it was cheese!) and, rather than today's nearly circular orbit, it 'moved in an eccentric oval-shaped orbit 100 million years after its violent formation.'"

7 of 204 comments (clear)

  1. no by GigsVT · · Score: 5, Funny

    It's just happy to see you.

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    I've had enough abrasive sigs. Kittens are cute and fuzzy.
  2. Come on people, give the moon a break... by Bamafan77 · · Score: 5, Funny

    Everyone knows your metabolism slows down after a certain age. Still though, a half hour a day on the treadmill probably wouldn't hurt either.

    1. Re:Come on people, give the moon a break... by Anonymous Coward · · Score: 5, Funny

      30 minutes a day on the treadmill? The fucker goes 1km/sec ALL DAY LONG!

      YOU do that, fat-ass!

    2. Re:Come on people, give the moon a break... by isellmacs · · Score: 5, Informative
      http://en.wikipedia.org/wiki/Luna_(moon)

      http://en.wikipedia.org/wiki/Selene

      I'd say "Her" would be appropriate, as the name Luna (the name of our moon) comes from the Roman Goddess of the Moon.

  3. The answer is apparent. by BoBathan · · Score: 5, Funny

    Bulge at the equator, violent formation, clearly the Moon is American.

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  4. Re:Missing energy by Jazzer_Techie · · Score: 5, Informative

    Actually, circular orbits are the lowest energy state. Thus, tidal forces cause the system to gradually lose energy until it settles into a circular orbit. When you add up the 1/r potential of gravity and the repulsive 1/r^2 centrifugal potential, you get a function with a nice minimum which is the radius of a circular orbit. The reason that elliptical orbits occur is because the period of the orbit exactly matches the period of oscillations around the minimum potential. Thus when you go around once, you end up right back where you started and get a closed, elliptical orbit. (Note that this is true only for Newtonian mechanics. Once you take General Relativity into account, the periods aren't the same and orbits precess. We can directly observe this in the orbit of Mercury as a perhelion shift of 43 arcseconds/century.)

  5. mmmm.... by denttford · · Score: 5, Funny

    Space Beer.

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