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You substitute the coordinates of the point in the equation. If the result is true then the point is a solution and if it is false it is not a solution.
Substitute the coordinates of the point into the equation and if the result is a true statement then the point is a solution, and if not it isn't.
The solution has a freezing point of 2.79 and this is the frezzing point of mercury
The boiling point of the solution increases, and the freezing point of the solution decreases.
If this question is asking: is the point (6,9) a solution of the equation y = 12x + 6, then NO, it's not a solution.
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Dissolved ions in solution will increase the boiling point of the liquid. Salt in cooking water does this.
1. Vapor pressure lowering: the decrease in vapor pressure with increasing the number of solute molecules in solution. 2. Boiling point elevation: the increase in boiling point with increasing number of solute molecules in solution. 3. Freezing point depression: the decrease in freezing point with increasing number of solute molecules in solution. 4. Osmotic pressure
The solution does not have to be at room temperature. Depending on what the solution is, the solution must be heated to it's proper boiling point in order for it to evaporate. Everything has a melting, freezing and a boiling point, and the salt's melting and boiling point's are extremely high, therefore the salt will be left behind when the solution is evaporated, unless the solutions boiling point is higher then the salt's boiling point.
Yes, it is possible if the solution contain solutes.
Will a 0.5 M solution have a higher freezing point than a 0.75 M solution of the same substance?
The freezing point is lowered slightly as some energy is absorbed by the impurities.