Yes, the density does change with pressure, as the volume changes (with set number of moles of gas).
PV = nRT
(Pressure * Volume = number of moles * gas constant * temperature)
is the ideal gas law. Any gas will adhere to this law, and you can calculate respective changes by using this with variable changes.
2007-05-04 18:22:21
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answer #1
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answered by fletchermse 2
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Are you talking the density of CO2 liquid at that temp.
If CO2 gas, then would need the pressure becasue the density will change with pressure.
2007-05-04 09:24:57
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answer #2
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answered by Mike J 4
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Carbon Dioxide vapor has a density of 0.1234 pounds per cubic foot. Dry Air has a density of 0.0765 pounds per cubic foot.
Both densities are at 59 deg F and one atmosphere of pressure (14.7 psia).
The density of gasses and most vapors will decrease directly with increases in its absolute temperature (F+ 459 deg.) and will increase directly with its absolute pressure (psig + 14.7 ).
The density of CO2 will be slightly less at 80F and one atmosphere. It will be 0.11863/ft^3
2007-05-04 10:39:22
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answer #3
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answered by Bomba 7
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i think of a level of atmospheric density barometric stress (the load of the ambience pushing on you). i think of to truly have an substantial results of atmospheric density, you will possibly want to alter the size of the planet and the climate of the ambience noticeably (no longer in basic terms a billions of numerous greenhouse gases consistent with 365 days, yet somewhat radical). i do no longer think of that that's almost as possibly to take place as international climate substitute with the aid of burning fossil fuels, panorama changes, etc. Any adventure that could desire to reason a surprising substitute in atmospheric density does no longer be solid and could make AGW an somewhat minor challenge for the microbes and bugs that could proceed to exist this sort of substitute.
2016-12-17 04:14:30
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answer #4
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answered by Anonymous
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The density of CO2 at std. conditions = 0.124 lb/cu.ft.=1.98 kg/cu.m., and the density varies with pressure and temp. in accordance with the ideal gas laws.
2007-05-04 10:48:18
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answer #5
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answered by gatorbait 7
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It is so dense it will smother a fire even if it is very hot.
2007-05-04 09:03:39
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answer #6
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answered by JOHNNIE B 7
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