Remember that escape velocity is the velocity needed, at a particular distance from the object (the sun in this case) to just make it to "infinity" with zero velocity. The escapee slows down as it escapes. And that's "affecting", not "effecting". --ms On 11/13/2011 12:38 AM, Steve Witham wrote:
From: Henry Baker <hbaker1@pipeline.com>
Wikipedia says escape velocity from the Sun's gravity starting at Jupiter's (current) orbit is 18.5 km/s. That's about one light year every sixteen thousand years.
Wikipedia also says the Solar System is 4.6 billion years old. Starting when the Solar System was 600 million years old, and traveling at 18.5 km/s, an object would travel about 244 thousand light years (if the Milky Way weren't effecting its path).
That's about twice the diameter of the Milky Way, or ten times the distance from the Sun to the center of the galaxy. In that same period, the Sun has orbited the center of the Galaxy 16 times.
So I guess this means the ejected planet won't be found loitering between the nearby stars. It's truckin'.
--Steve
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