Can the Rapid Depressurization of a Soda Can Cause Significant Cooling?

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Rapid depressurization of a soda can can lead to a slight cooling effect due to the release of CO2, but the effect is minimal compared to high-pressure systems like CO2 fire extinguishers. The thermal mass of the soda itself is unlikely to change significantly from the pressure alone. While the Joule-Thomson effect explains cooling in high-pressure scenarios, the pressure in a soda can is much lower, making substantial cooling improbable. The carbonation remaining in the drink after opening may also limit the amount of CO2 that expands quickly enough to cause noticeable cooling. Overall, while the soda may feel colder, the actual temperature change from depressurization is not significant.
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So, i just opened a soda can that hadn't been refrigerated and upon drinking it, the soda felt much colder than i would have expected from where it was stored. i realize that the cans are pressurized from the CO2 and that on opening they lose this pressure. to my understanding the when a pressure vessel such as this one is rapidly depressurized cooling occurs. is the pressure that the soda can holds enough to significantly change the temperature upon opening? It does not seem likely that the thermal mass of the soda itself could be changed to a significant extent by the pressure alone. I haven't measured the temperature of the soda (in fact its gone now) but does this seem to be a reasonable explanation for why it feels cold?
 
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I've played paintball, and a similar thing happens with the CO2 tank on the gun, but in both of these cases the pressure contained is much much greater than anything a can of soda could contain. Can the CO2 in the soda can expand quickly enough when the can is opened to cause significant cooling. Because of the carbonation left in the drink after it has been opened, i wouldn't think that it expands quickly enough or to actually cause any cooling.
 

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