Solubility of the gas (in liquids) decreases with temperature and increases with pressure. For calculation of the gas solubility (low concentration), Henry's law can be used, https://en.wikipedia.org/wiki/Henry%27s_law
Gas solubility in a liquid increases with higher pressure and decreases with higher temperature.
To increase gas solubility, either raise the pressure, lower the temperature, or choose a suitable solvent. Stirring the liquid or using a catalyst can also help.
The solubility of the gas in a liquid solution decreases with increase in temperature. This is because, with an increase in temperature, the kinetic energy of the gas molecule increases, thus it becomes difficult for liquid molecules to hold them. The solubility of gases is directly proportional to pressure. That is it increases with increase in pressure and solubility of gases in water increases with increase in pressure. The solubility of a gas in liquid increases with an increase in pressure at a given temperature. Conversely, the solubility of a gas decreases with a decrease in pressure and an increase in temperature decreases the solubility of a gas in a liquid. The solute's solubility falls because the kinetic energy of the gaseous solute increases as the temperature rises. As its molecules are more likely to escape the solvent molecule's attraction and return to the gas phase. An increase in pressure and an increase in temperature in this reaction results in greater solubility. An increase in pressure results in more gas particles entering the liquid in order to decrease the partial pressure. Therefore, the solubility would increase. As the temperature of the solution increase, the average kinetic energy of the solute molecules also increases. This causes the molecules to be less able to hold together and hence they dissolve more readily. Hence increase in temperature increases the solubility of solid states. The solubility of a gas in a liquid will increase if: Lower the temperature of the solution, and therefore, lower the kinetic energy of the gaseous particles so they can escape the liquid phase less often.Solubility of a gas in a liquid increases with increase in pressure and temperature and vice versa. The solubility is a measure of the concentration of the dissolved gas particles in the liquid and is a function of the gas pressure. As you increase the pressure of a gas, the collision frequency increases and thus the solubility goes up, as you decrease the pressure, the solubility goes down. The addition of more heat facilitates the dissolving reaction by providing energy to break bonds in the solid. This is the most common situation where an increase in temperature produces an increase in solubility for solids. The solubility of the gas in a liquid solution decreases with increase in temperature. This is because, with an increase in temperature, the kinetic energy of the gas molecule increases, thus it becomes difficult for liquid molecules to hold them. The solubility of a gas in a liquid is directly proportional to the partial pressure of the gas present above the surface of liquid or solution. The most general way of using Henry's Law is that the partial pressure of a gas above a solution is proportional to the mole fraction of the gas in the solution. Increasing the temperature will therefore increase the solubility of the solute. An example of a solute whose solubility increases with greater temperature is ammonium nitrate, which can be used in first-aid cold packs. Ammonium nitrate dissolving in solution is an endothermic reaction. Decreased volume of the gas, with pressure and temperature held constant. Increased pressure of the gas and decreased temperature generally increase the solubility of a gas in a liquid.
The solubility of a gas in a liquid decreases with increasing temperature and increases with increasing pressure. This is because increasing the temperature of a liquid increases the kinetic energy of the liquid molecules, which makes it more difficult for the gas molecules to dissolve. Increasing the pressure of a gas above a liquid forces the gas molecules into the liquid, increasing the solubility.
The best way to increase the solubility of a gas in a liquid is to increase the pressure of the gas above the liquid. This is the principle behind carbonated beverages, where the carbon dioxide gas is dissolved under high pressure in the liquid. Another way to increase the solubility of a gas is to decrease the temperature of the liquid.
Here are some other factors that can affect the solubility of a gas in a liquid:
The nature of the gas and the liquid: Some gases are more soluble than others in certain liquids. For example, oxygen is more soluble in water than nitrogen.
The polarity of the gas and the liquid: Polar gases are more soluble in polar liquids, and non-polar gases are more soluble in non-polar liquids. For example, carbon dioxide is a non-polar gas that is more soluble in water than in oil.
The presence of other solutes: The presence of other solutes in the liquid can affect the solubility of a gas. For example, salt water has a lower solubility for carbon dioxide than pure water.
As the temperature of the solution increase, the average kinetic energy of the solute molecules also increases. This causes the molecules to be less able to hold together and hence they dissolve more readily. Hence increase in temperature increases the solubility of solid states. The solute's solubility falls because the kinetic energy of the gaseous solute increases as the temperature rises. As a result, its molecules are more likely to escape the solvent molecule's attraction and return to the gas phase. Increased temperature causes an increase in kinetic energy. The higher kinetic energy causes more motion in the gas molecules which break intermolecular bonds and escape from solution and solubility of gases in water decreases with increase in temperature. The solubility of the gas in a liquid solution decreases with increase in temperature. This is because, with an increase in temperature, the kinetic energy of the gas molecule increases, thus it becomes difficult for liquid molecules to hold them. There are two direct factors that affect solubility: temperature and pressure. Temperature affects the solubility of both solids and gases, but pressure only affects the solubility of gases. The solubility is a measure of the concentration of the dissolved gas particles in the liquid and is a function of the gas pressure. As you increase the pressure of a gas, the collision frequency increases and thus the solubility goes up, as you decrease the pressure, the solubility goes down. The solubility of a gas in a liquid is directly proportional to the partial pressure of the gas over the solution. The solubility of a gas in a liquid will increase if: Lower the temperature of the solution, and therefore, lower the kinetic energy of the gaseous particles so they can escape the liquid phase less often. Solubility of a gas in a liquid increases with increase in pressure and temperature and vice versa. Increasing the temperature will therefore increase the solubility of the solute. As a solute whose solubility increases with greater temperature is ammonium nitrate, which can be used in first-aid cold packs. Ammonium nitrate dissolving in solution is an endothermic reaction.
In fact the solubility of the gas in a liquid solution decreases with increase in temperature. This is because, with an increase in temperature, the kinetic energy of the gas molecule increases, thus it becomes difficult for liquid molecules to hold them. The solubility of a gas decreases with increasing temperature. Henry's law describes the relationship between the pressure and the solubility of a gas. The solubility of the gas in a liquid solution decreases with increase in temperature. This is because, with an increase in temperature, the kinetic energy of the gas molecule increases, thus it becomes difficult for liquid molecules to hold them. Thus, according to Henry's law of solubility, on increasing the pressure of gas above the liquid, concentration of the gas in solution also increases which means solubility of gas in liquid increases with increase of pressure. Moreover, solubility of a gas in liquid also increases with the lowering of temperature. On increasing the temperature the solubility of a gas in a liquid decreases whereas on decreasing temperature the solubility of a gas in liquid increases this shows that the solubility of a gas in a liquid is inversely proportional to temperature. The solubility of a gas in liquid increases with an increase in pressure at a given temperature. Conversely, the solubility of a gas decreases with a decrease in pressure and an increase in temperature decreases the solubility of a gas in a liquid. For many solids dissolved in liquid water, the solubility increases with temperature. The increase in kinetic energy that comes with higher temperatures allows the solvent molecules to more effectively break apart the solute molecules that are held together by intermolecular attractions. The higher kinetic energy leads to more motion/movement in the molecules thereby dissociating the intermolecular bonds and ultimately escaping from the solution. Thus, solubility of gas in liquid decreases with increase of temperature and increases with decrease in temperature. The solubility of gases in liquids decreases with increasing temperature. Conversely, adding heat to the solution provides thermal energy that overcomes the attractive forces between the gas and the solvent molecules, thereby decreasing the solubility of the gas. The solubility of a gas in a liquid will increase if: Lower the temperature of the solution, and therefore, lower the kinetic energy of the gaseous particles so they can escape the liquid phase less often. Solubility of a gas in a liquid increases with increase in pressure and temperature and vice versa. The addition of more heat facilitates the dissolving reaction by providing energy to break bonds in the solid. This is the most common situation where an increase in temperature produces an increase in solubility for solids. The solubility is a measure of the concentration of the dissolved gas particles in the liquid and is a function of the gas pressure. As you increase the pressure of a gas, the collision frequency increases and thus the solubility goes up, as you decrease the pressure, the solubility goes down.