How do temperature changes lead to solubility changes for salt dissolved in water?(1 point)

Responses

High temperatures mean that sodium and chlorine ions will be moving faster, increasing the odds that they will collide and combine. This reduces solubility.
High temperatures mean that sodium and chlorine ions will be moving faster, increasing the odds that they will collide and combine. This reduces solubility.

High temperatures mean more of the salt will be in the liquid form as it gradually melts, increasing solubility.
High temperatures mean more of the salt will be in the liquid form as it gradually melts, increasing solubility.

High temperatures mean more of the salt will be in the gas form, causing it to evaporate out of the solution, decreasing solubility.
High temperatures mean more of the salt will be in the gas form, causing it to evaporate out of the solution, decreasing solubility.

High temperatures mean more kinetic energy, which keeps sodium and chlorine ions from combining, which increases solubility.

1 answer

The correct response regarding how temperature changes lead to solubility changes for salt dissolved in water is:

High temperatures mean more kinetic energy, which keeps sodium and chlorine ions from combining, which increases solubility.

In general, for many salts, higher temperatures typically lead to increased solubility because the increased kinetic energy allows water molecules to interact more effectively with the solute and overcome the forces holding the ions together in the solid salt. However, it is worth mentioning that this response may not apply uniformly to all salts, as the solubility of some salts can decrease with increasing temperature.