Which of the following changes will decrease the total amount of gaseous solute able to be dissolved in a liter of liquid water?
I guess the next post you completed the question.
Decrease in pressure
To determine which of the following changes will decrease the total amount of gaseous solute able to be dissolved in a liter of liquid water, we need to consider the factors that affect solubility.
There are several factors that can influence the solubility of a gaseous solute in a liquid, such as temperature, pressure, and the nature of the solute and solvent.
1. Temperature: Generally, as temperature increases, the solubility of most gases decreases. This is because increasing the temperature provides energy to the gas molecules, allowing them to escape from the liquid phase more easily. So, increasing the temperature would decrease the amount of gaseous solute dissolved.
2. Pressure: The effect of pressure on gas solubility depends on whether the solute is an ideal gas or a non-ideal gas. For an ideal gas, such as oxygen or nitrogen, increasing the pressure increases the solubility. However, for non-ideal gases, such as carbon dioxide, increasing the pressure has a minimal effect on solubility. Therefore, changing the pressure may or may not decrease the amount of gaseous solute dissolved.
Based on these factors, we can conclude that the change in temperature is most likely to decrease the total amount of gaseous solute able to be dissolved in a liter of liquid water. However, without the specific options you mentioned, it is difficult to provide a definitive answer.