Wrong. The amount of disolved gas increases with incresing of the pressure above the liquid-- but the solubility of that gas in that liquid stays the same.
@Happyascanbe1 You are interchanging your words. If the gas is dissolved then that IS solubility. The pressure received from above the liquid (decreasing volume), results in a higher chance of solubility due to more collisions with the surface. Refer to Henry's law.
@jhongz100 Just think about it. Take O2 and CO2 for example. If you put, say, 3ATA O2 above the water in one container and 1.5ATA CO2 above the water in another, you might end up with more O2 molecules dissolved, but the solubility of CO2 in water is still greater than the solubility of O2 in water.
Wrong. The amount of disolved gas increases with incresing of the pressure above the liquid-- but the solubility of that gas in that liquid stays the same.
Happyascanbe1 5 months ago
@Happyascanbe1 You are interchanging your words. If the gas is dissolved then that IS solubility. The pressure received from above the liquid (decreasing volume), results in a higher chance of solubility due to more collisions with the surface. Refer to Henry's law.
jhongz100 3 weeks ago
@jhongz100 Just think about it. Take O2 and CO2 for example. If you put, say, 3ATA O2 above the water in one container and 1.5ATA CO2 above the water in another, you might end up with more O2 molecules dissolved, but the solubility of CO2 in water is still greater than the solubility of O2 in water.
Happyascanbe1 3 weeks ago
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Happyascanbe1 5 months ago