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#1
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Global warming physics again
"Dave" wrote in message ... On Thu, 21 Jun 2007 19:09:54 -0400, "Wilbur Hubbard" said: And what makes you think this is true? The concentration of oxygen remain essentially unchanged with altitude, at about 21%. Tell that to a Mt. Everest summiteer who'd pass out without his bottled O2.. Ah, another candidate to sit in the corner with the pointed hat on his head. Now, get out your science book and look up "partial pressure." OK, OK. You're right for once. I looked it up and the relative percentages of the atmospheric gasses remain the same with altitude until you get very very high up like in the ionosphere. But, for example, the atmosphere atop Mt. Everest is about 1/3 the pressure as at sea level. And, even though the oxygen content remains about 23%, the available oxygen molecules to breathe are only about 1/3rd as many. So, my Mt. Everest example still holds true because 1/3rd of 23% of oxygen (the standard amount at sea level) is still only 1/3rd enough. http://www.adlers.com.au/oxygen.php Wilbur Hubbard |
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#2
posted to rec.boats.cruising
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Global warming physics again
* Wilbur Hubbard wrote, On 6/21/2007 8:54 PM:
"Dave" wrote in message ... On Thu, 21 Jun 2007 19:09:54 -0400, "Wilbur Hubbard" said: And what makes you think this is true? The concentration of oxygen remain essentially unchanged with altitude, at about 21%. Tell that to a Mt. Everest summiteer who'd pass out without his bottled O2.. Ah, another candidate to sit in the corner with the pointed hat on his head. Now, get out your science book and look up "partial pressure." OK, OK. You're right for once. I looked it up and the relative percentages of the atmospheric gasses remain the same with altitude until you get very very high up like in the ionosphere. But, for example, the atmosphere atop Mt. Everest is about 1/3 the pressure as at sea level. And, even though the oxygen content remains about 23%, the available oxygen molecules to breathe are only about 1/3rd as many. So, my Mt. Everest example still holds true because 1/3rd of 23% of oxygen (the standard amount at sea level) is still only 1/3rd enough. That's about what we'd expect from an English major. |
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#3
posted to rec.boats.cruising
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Global warming physics again
Wilbur Hubbard wrote:
"Dave" wrote in message ... On Thu, 21 Jun 2007 19:09:54 -0400, "Wilbur Hubbard" said: And what makes you think this is true? The concentration of oxygen remain essentially unchanged with altitude, at about 21%. Tell that to a Mt. Everest summiteer who'd pass out without his bottled O2.. Ah, another candidate to sit in the corner with the pointed hat on his head. Now, get out your science book and look up "partial pressure." OK, OK. You're right for once. I looked it up and the relative percentages of the atmospheric gasses remain the same with altitude until you get very very high up like in the ionosphere. But, for example, the atmosphere atop Mt. Everest is about 1/3 the pressure as at sea level. And, even though the oxygen content remains about 23%, the available oxygen molecules to breathe are only about 1/3rd as many. So, my Mt. Everest example still holds true because 1/3rd of 23% of oxygen (the standard amount at sea level) is still only 1/3rd enough. http://www.adlers.com.au/oxygen.php Wilbur Hubbard The first teams to get to the Everest summit didn't have the benefit of bottled Oxygen. |
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#4
posted to rec.boats.cruising
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Global warming physics again
In article ,
Cal Vanize wrote: Wilbur Hubbard wrote: "Dave" wrote in message ... On Thu, 21 Jun 2007 19:09:54 -0400, "Wilbur Hubbard" said: And what makes you think this is true? The concentration of oxygen remain essentially unchanged with altitude, at about 21%. Tell that to a Mt. Everest summiteer who'd pass out without his bottled O2.. Ah, another candidate to sit in the corner with the pointed hat on his head. Now, get out your science book and look up "partial pressure." OK, OK. You're right for once. I looked it up and the relative percentages of the atmospheric gasses remain the same with altitude until you get very very high up like in the ionosphere. But, for example, the atmosphere atop Mt. Everest is about 1/3 the pressure as at sea level. And, even though the oxygen content remains about 23%, the available oxygen molecules to breathe are only about 1/3rd as many. So, my Mt. Everest example still holds true because 1/3rd of 23% of oxygen (the standard amount at sea level) is still only 1/3rd enough. http://www.adlers.com.au/oxygen.php Wilbur Hubbard The first teams to get to the Everest summit didn't have the benefit of bottled Oxygen. and neither did Larry Nielson, the first american to accomplish that feat... |
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