Particle size, concentration, temperature, and stirring.
Stirring and heating improve the rate of dissolution and not affect the measured solubility at a given temperature.But I mention that the solubilty of solids is increased when the temperature increase.
Increasing temperature increases the rate of dissolution, though it can increase or decrease solubility at equilibrium.
One way is to grind up solid, or increase the temperature. Also, you can stir the solution, and then, there are enzymes.
Heating or stirring will normally increase the rate at which a soluble solid dissolves in liquid. Heating will also normally increase the amount of solute that can be retained in solution.
Solubility is determined experimentally.
Increase in temprature brings about increase in the rate of reaction and this does affect d solubility of the subtance
Stirring and heating improve the rate of dissolution and not affect the measured solubility at a given temperature.But I mention that the solubilty of solids is increased when the temperature increase.
To increase the solubility of a solute:Increase the temperature.Crsuh the solute to powder so you have a larger surface area to volume ratio.Increase the stirring/mixing rate.
Increasing temperature increases the rate of dissolution, though it can increase or decrease solubility at equilibrium.
Increasing the temperature the solubility increase, also the dissolution rate.
One way is to grind up solid, or increase the temperature. Also, you can stir the solution, and then, there are enzymes.
Heating or stirring will normally increase the rate at which a soluble solid dissolves in liquid. Heating will also normally increase the amount of solute that can be retained in solution.
Perhaps you mean the solubility of substances in water. Most solids have increasing solubility in water with increase in temperature, but certainly not all of them. Some solids e.g. Cerium Sulphate have decreased solubility in water at higher temperatures, while some solids show increasing solubility up to a certain temperature, above which the solubility decreases, such as Sodium Sulphate. The solubility of common salt, Sodium Chloride, is almost unaffected by temperature. Gases generally have lower solubility in water at higher temperatures.
Solubility is determined experimentally.
Temperature affects both the rate of solution and the solubility of a solid in a liquid
Factors affecting the solubility:1. the nature of solute/solvent (chemical composition, polarity)2. temperature3. pressure4. stirring5. surface area of the solute6. some added compounds7. amount of the solute 8. the geometry of the beaker
Stirring quickens the rate of solubility of solid in the liquid.