these change causes the change intermolecular forces which results into change in state of that compound or new compound is formed excclusively depending on the change done
You can change the solubility of a solute by adjusting the temperature, pressure, or by adding a solvent that the solute is more soluble in. Additionally, you can alter the particle size of the solute to increase its surface area, which can affect its solubility.
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Unless the solute is frozen , the temperature and pressure in a room should not change the neutralization of a solute. This is because the solvent and all other aspects of the experiment would be equally affected, and the solute's temperature would balance itself out.
Heating the solution increases the solubility of the solute, allowing more of it to dissolve. This creates a supersaturated solution, where the solution is holding more solute than it normally can at that temperature. Upon cooling, the excess solute remains in solution, resulting in a supersaturated solution.
If the heat is increased, the increased temperature of the solvent will increase the solubility of the solute.
The solubility of solutes is dependent on temperature. When a solid dissolves in a liquid, a change in the physical state of the solid analogous to melting takes place. Heat is required to break the bonds holding the molecules in the solid together. At the same time, heat is given off during the formation of new solute -- solvent bonds.
Heat which causes a change in temperature of substance is called specific heat.
Dissolution typically absorbs heat from the surroundings as the solute particles separate and mix with the solvent, causing a decrease in temperature. Crystallization on the other hand releases heat as the solute particles come together to form a solid crystal structure, leading to an increase in temperature.
Raising the temperature of the solvent will increase the solubility ofa solute.
If it's frozen solid it will be hard to neutralize.