Yes
You can crush it, which will increase its surface area. You can stir it, causing agitation. You can heat the solvent, which will make the particles making up the solvent and solute move faster.
When a solution forms, particles of the solute leave each other.
The temperature: Increasing temperature makes the particles move faster. Heat energy is transferred by the movement of the particles. Because the solvent particles are moving faster, they bump into the solute.Stirring: Moves all the particles around do the solvent particles bump into the solute particles.
The first step in the dissolving process is "The solvent molecules surround the solute particles".
The solvent may considered air and the solute are the solid or liquid particles from smoke.
by adding solvent, the ability of solvent molecules to escape(i.e its vapour pressure) will decrease.because the solute particles provide hinderance
Yes
Not necessarily just changing the surface area causes the rate to change. Changing the ratio of surface area volume changes the rate at which a solute dissolves in a solvent. If the surface area is larger and the volume of a solute is smaller or the same, then the rate at which the solute dissolves in a solvent increases. If the surface area is smaller and the volume of the solute is larger or the same, then the rate at which the solute dissolves in a solvent decreases.
We can identify which solvent can strip solute particles with the greatest surface if we have the option to choose from. This statement is not a definition, it is an analogy question for a given situation.
the particles of the solute would be spread to the solvent particles.
Dissolving a solute by the solvent.
The solvent is air; the solute are the particles of smoke.
You can crush it, which will increase its surface area. You can stir it, causing agitation. You can heat the solvent, which will make the particles making up the solvent and solute move faster.
when solute is dissolved in a solvent...the molecules of the solute starts diffusing between the particles of the solute.
It is the amount of surface of a solute that is exposed to the solvent. The smaller the pieces of the solute are, the larger the surface area that is exposed to the solvent.
Solute particles are the particles of solid material that are being placed into a solvent. A solute dissolved in a solvent makes a solution.
When a solution forms, particles of the solute leave each other.