When potassium nitrate is dissolved in water, the resulting solution feels cool
ID: 800989 • Letter: W
Question
When potassium nitrate is dissolved in water, the resulting solution feels cool to the touch. This means that: Answer the strength of attraction between the solute particles is greater than that of the attraction between the solute and solvent. the strength of attraction between the solute and solvent particles is greater than that of the attraction between the solute particles. the strength of attraction between the solute particles is equal to that of the attraction between the solute and solvent. hydrogen bonds must be broken, which is an exothermic process. there is a decrease in entropy for the solution.?? When potassium nitrate is dissolved in water, the resulting solution feels cool to the touch. This means that: Answer the strength of attraction between the solute particles is greater than that of the attraction between the solute and solvent. the strength of attraction between the solute and solvent particles is greater than that of the attraction between the solute particles. the strength of attraction between the solute particles is equal to that of the attraction between the solute and solvent. hydrogen bonds must be broken, which is an exothermic process. there is a decrease in entropy for the solution.
?? When potassium nitrate is dissolved in water, the resulting solution feels cool to the touch. This means that: When potassium nitrate is dissolved in water, the resulting solution feels cool to the touch. This means that: the strength of attraction between the solute particles is greater than that of the attraction between the solute and solvent. the strength of attraction between the solute and solvent particles is greater than that of the attraction between the solute particles. the strength of attraction between the solute particles is equal to that of the attraction between the solute and solvent. hydrogen bonds must be broken, which is an exothermic process. there is a decrease in entropy for the solution.
?? the strength of attraction between the solute particles is greater than that of the attraction between the solute and solvent. the strength of attraction between the solute and solvent particles is greater than that of the attraction between the solute particles. the strength of attraction between the solute particles is equal to that of the attraction between the solute and solvent. hydrogen bonds must be broken, which is an exothermic process. there is a decrease in entropy for the solution.
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Explanation / Answer
the strength of attraction between the solute particles is greater than that of the attraction between the solute and solvent.
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