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Solubility can increase and decrease with temperature variations and changes, Pressure can increase and decrease solubility with difference pressure variations, the nature of the gas and the nature of the solvent as well chance the solubility of the gas.
Kinetic theory in chemistry describes the relationship between temperature, volume, and pressure; if you increase temperature, the pressure or volume will increase, if you decrease volume or increase pressure, temperature will increase. The theory examines the nature of an elastic gas with atoms or molecules moving around within a container colliding with each other and with the walls of the container; temperature is a measure of the collective average random kinetic energy, expressed both in mass and speed (rotation, translation, and vibration). It describes that as you compress the substance (decrease the volume), the density of its component molecules increases and the frequency with which they collide with the walls increases, hence the temperature (and/or pressure) goes up.
This depends on the nature of the solute and solvent. Excepting gases, increasing the temperature the solubility increase.
Change in pressure and change in temperature.
(1) Temperature (2) Nature of solute or solvent (3) Pressure
Solubility can increase and decrease with temperature variations and changes, Pressure can increase and decrease solubility with difference pressure variations, the nature of the gas and the nature of the solvent as well chance the solubility of the gas.
(1) Temperature (2) Nature of solute or solvent (3) and Pressure.
Kinetic theory in chemistry describes the relationship between temperature, volume, and pressure; if you increase temperature, the pressure or volume will increase, if you decrease volume or increase pressure, temperature will increase. The theory examines the nature of an elastic gas with atoms or molecules moving around within a container colliding with each other and with the walls of the container; temperature is a measure of the collective average random kinetic energy, expressed both in mass and speed (rotation, translation, and vibration). It describes that as you compress the substance (decrease the volume), the density of its component molecules increases and the frequency with which they collide with the walls increases, hence the temperature (and/or pressure) goes up.
This depends on the nature of the material, structure, temperature, pressure.
temperature nature and pressure
temperature nature and pressure
the nature of the solute and solvent, temperature and pressure
the nature of the solute and solvent, temperature and pressure
Physisorption is exothermic in nature. Therefore, in accordance with Le-Chateliere's principle, it decreases with an increase in temperature. This means that physisorption occurs more readily at a lower temperature.
The nature of the liquid and the pressure.
Many factors can and do increase the rate of chemical reactions. The most obvious is an increase in temperature, although too large an increase can breakdown the reactants. Other factors include catalysts, enzymes, pressure, concentration of reactants , surface area and other forms of energy (UV is an example).
This depends on the nature of the solute and solvent. Excepting gases, increasing the temperature the solubility increase.