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Chemistry Forums for Students => High School Chemistry Forum => Topic started by: cliverlong on January 26, 2009, 09:45:19 AM

Title: Why is there an amosphere on earth?
Post by: cliverlong on January 26, 2009, 09:45:19 AM

The earth is several billion years old. Life has been around for one to two billion years, stabilising the composition of the atmosphere.

The energy and hence velocity of the gases in the earth's atmosphere are distributed as in any other gaseous system according to the Maxwell-Boltzmann distribution.

A percentage, however small, of the molecules in the earth's atmosphere must have a velocity that exceeds the escape velocity of earth's gravity. Therefore, why hasn't earth's atmosphere over those billions of years just "evaporated" into outer space?

Thanks

Clive

Title: Re: Why is there an amosphere on earth?
Post by: nj_bartel on January 26, 2009, 11:35:02 AM

I believe it's just hydrogen and helium that have any significant portion of their molecules moving at escape velocity, and we are in fact running out of helium.  We have plenty of sources of hydrogen  ;D

Title: Re: Why is there an amosphere on earth?
Post by: Donaldson Tan on January 27, 2009, 05:19:08 AM

gravity, density, intermolecular attraction, friends, family and love

Title: Re: Why is there an amosphere on earth?
Post by: Arkcon on January 27, 2009, 08:18:53 AM

The way I'd heard it, the planet Earth is losing it's atmosphere, slowly.  The time scale, in Earth's case, just happens to be long enough for life to form and evolve.   There are some other tricks, Mars for example is very small.  It lacks enough mass to generate a high enough gravity to hold much atmosphere.  Maybe there was life there too, once.  But it couldn't get far, before the atmosphere thinned. 

Also, Mars has a cool interior.  It may have had plate tectonics once, but it doesn't now.  That's another trick the Earth uses, subduction of plates into the mantle vaporizes carbonate rock, which comes back out in volcanoes, elsewhere.  On Mars, once a gas becomes a solid compound, it stays in a rock on the surface. 

Even Venus, warmer than the Earth, has a dense atomsphere, it may not have plate tectonics to regenerate it's atmosphere from surface rock, but it may catastrophically regenerate it's surface.

I'd heard, apocryphally, that if we could, either magically or by applying suitably advanced technology, transport enough nitrogen and oxygen, to give Earth's moon a dense atmosphere, it would be lost much faster than Earth's would -- but still, millions of years would pass.  Oh, life wouldn't evolve there, but human civilizations would likely die out before they noticed.