F.p.'s and B.p.'s are independent (intensive) properties, you can NOT calculate them.
Yes, it is possible if the solution contain solutes.
It can be separated by boiling off the water or crystallizing the KNO3 from solution
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.
Conductivity
The influence is extremely low - apprpox. 0,05 0C.
nobody knows
Higher boiling point and a lower freezing point. These are called colligative properties. When a solute is put into solution with the solvent, there is a change in the vapor pressure, osmotic pressure, elevation of the boiling point, and depression of the freezing point.
The boiling point of 2 m KF in water is 102.4ºC. The boiling point of a 0.5 m aqueous solution of LiOH is the same as the boiling point of a 0.5 m aqueous solution of LiCl.
Colligative properties, such as boiling point elevation, depend on the molality of the solution and the number of "entities" (ions, in this case) per formula unit. For the solutions specified, these are identical, so the answer is no.
it's a colligative property of solutions... when you add a higher boiling substance to a solution the boiling point increases and when you add anything that interferes with the intramolecular forces holding the solution together the freezing point decreases.
Yes, it is possible if the solution contain solutes.
108.7
104 degree celcius
The boiling point of the solution increases, and the freezing point of the solution decreases.
Raises the boiling point and lowers the freezing point.
It can be separated by boiling off the water or crystallizing the KNO3 from solution
The freezing point is lowered slightly as some energy is absorbed by the impurities.