Responses
The water would need to be chilled to a lower temperature, which would give molecules and ions more kinetic energy, increasing solubility.
The water would need to be chilled to a lower temperature, which would give molecules and ions more kinetic energy, increasing solubility.
The water would need to be heated to a higher temperature, which would take kinetic energy away from molecules and ions, increasing solubility.
The water would need to be heated to a higher temperature, which would take kinetic energy away from molecules and ions, increasing solubility.
The water would need to be chilled to a lower temperature, which would take kinetic energy away from molecules and ions, increasing solubility.
The water would need to be chilled to a lower temperature, which would take kinetic energy away from molecules and ions, increasing solubility.
The water would need to be heated to a higher temperature, which would give molecules and ions more kinetic energy, increasing solubility.
The water would need to be heated to a higher temperature, which would give molecules and ions more kinetic energy, increasing solubility.
1 answer
The correct response is:
"The water would need to be heated to a higher temperature, which would give molecules and ions more kinetic energy, increasing solubility."
Heating the water increases the solubility of most solids, allowing more solute to dissolve. Once a supersaturated solution is formed by dissolving the solute at a higher temperature, it can then be cooled slowly to maintain the supersaturated state and allow for crystal formation.
