It will affect it because the chemicals in what you are trying to dissolve, will increase if you put it in hot water. The chemicals dissolve much faster the higher the temperature.
Heat increase the speed at which a solid dissolves as it causes the molecules to disintegrate and spread away from each other. Heat will convert a solid into a liquid and eventually into gas.
Heat increases the movement of the particles, making the rate a substance dissolves faster.
when the temperature is increased the molecules present in the solution gain kinetic energy and the rate of the reaction increases.
As temperature is increased, the molecules in the solvent will move faster. This will cause more collisions with the solute, causing it to dissolve faster.
It makes the water molecules move faster.
It exposes more of the solute surface to the water molecules.
1) increase the solvent's temperature 2) add more solvent 3) stir (have the solvent and solute meet together more instead of letting the solute rest at the bottom of the solvent)
For the amount of material in the particle the surface area of a small particle is greater than a larger particle. Said another way, the surface area per unit volume is greater for a smaller particle. Dissolving speed is related to the surface area. Therefore a smaller particle dissolves faster than a larger particle.
The most important and basic factor that increase the dissolving rate is temperature.
The most usual factors that affect the speed at which something dissolves are the temperature of the solvent, and any stirring of the solution that is being done. The relative quantity of solvent compared to solute is also an important factor, since there is only so much solute that will dissove before the solution is saturated.
It makes the water molecules move faster.
Links between chemical entities (atoms or molecules) are quickly destroyed if the temperature increase.
It exposes more of the solute to the water molecules
It exposes more of the solute surface to the water molecules.
It exposes more of the solute surface to the water molecules.
It exposes more of the solute surface to the water molecules.
It exposes more of the solute surface to the water molecules.
It exposes more of the solute surface to the water molecules.
Reducing particle size results in an increase in surface area. The increase in surface area allows more solvent (water) molecules to interact with the substance, and this increases the rate at which that substance dissolves.
As the particle size gets smaller, the surface area increases, and as the surface area increases, the ease with which water can hydrate the particles increases. When it is easier for water to hydrate the molecules, this increases the speed at which the solute dissolves.
1) increase the solvent's temperature 2) add more solvent 3) stir (have the solvent and solute meet together more instead of letting the solute rest at the bottom of the solvent)
A solute generally dissolves more rapidly the warmer the solvent. Also, any mixing or moving of the solute, and also if the solute is broken up (increases surface area) both speed up dissolving.