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Transit Method Reveals Many Extrasolar Planets

Posted by ScuttleMonkey on from the through-the-looking-glass dept.

eldavojohn writes "You might recall not too long ago the first photo of an extra solar planet or, more recently, the mapping & speculation on these planets that lie outside our own solar system. Long since those first few spotted in the 90s, we're now starting to find them in droves due to the popularity of a method that relies on the planet passing directly between the viewer on earth and the star that it orbits. Be sure to check out Space.com's list of the most interesting extra-solar planets. Will we ever find Earth 2.0 candidates?"

3 of 174 comments (clear)

  1. Pegs that variable in the Fermi equation... by It+doesn't+come+easy · · Score: 4, Insightful

    Considering the statistically unlikely percentage of planetary orbits that would naturally line up so that the planet would transit its sun from our point of view, planets must be pretty much common as dust. Either that or God was nice enough to line them up so it's easy for us to find them (possible, I hear God is a very nice person)...

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  2. perhaps not so lucky by goombah99 · · Score: 5, Insightful

    Considering the statistically unlikely percentage of planetary orbits that would naturally line up so that the planet would transit its sun from our point of view, planets must be pretty much common as dust. Either that or God was nice enough to line them up so it's easy for us to find them (possible, I hear God is a very nice person)... Maybe not so lucky. Most of the planets in our solar system (not all) have their rotational axes mostly parallel to their orbital axis. I assume there's some reason for that, perhaps simply if they are spun off of the sun then they acquire it's angular momentum. Or like the moon where tidal forces lock the orbit. In any case then, the next question is if the solar systems in our galaxy mainly orbit in the plane of the galaxies rotation. I'd assume so.

    Given all that then it's not too surprising that there be a preference for this favorable occultation geometry.

    Finally I note that we are not really interested in planets that don't rotate in their orbital plane since otherwise they'd be roastingly hot on one side and freezing on the other.

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    1. Re:perhaps not so lucky by Chris+Burke · · Score: 4, Insightful

      Yes, but wouldn't there be a certain ring that is exactly 70 degrees?

      I'm no expert, but I'd be willing to bet that what you'd really get is a ring that fluctuates violently between the hot and cold extremes of the two sides of the planet and is constantly bombarded by gigantic storms. I mean we're basically talking about a permanent clash between hot and cold weather fronts.

      Huge temperature deltas do not result in nice smooth gradients between them.

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