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290 c
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.
At the boiling point liquids become gases and if the solution contain dissolved solids they remain as residues.
Lower. The boiling point of ethanol is 78 degrees C. Adding salt to water raises the boiling point of that solution above 100 degrees C.
290 c
Higher then the boiling point of the solvent.
this is because glycerol have two hydroxyl group which form it more boiling pointdue to hydrogen bond while ethanol have one hydroxyl group that is why toform it less boiling boint than glyceerol.
Boiling Point Elevation
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.
The boiling point is 101 oC.
the boiling point of platnium is 2500c
At the boiling point liquids become gases and if the solution contain dissolved solids they remain as residues.
Dissolved ions in solution will increase the boiling point of the liquid. Salt in cooking water does this.
Lower. The boiling point of ethanol is 78 degrees C. Adding salt to water raises the boiling point of that solution above 100 degrees C.
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.