The freezing point of a solution is the temperature at which the liquid in the solution solidifies or freezes.
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.
To determine the freezing point of a solution using a salt water freezing point calculator, you need to input the concentration of salt in the solution and the calculator will provide you with the freezing point of the 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.
No, the 0.75 M solution will have a higher freezing point. The freezing point depression is directly proportional to the molality of the solution, so a higher concentration solution will have a greater effect on lowering the freezing point.
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.
The freezing point depression equation is used to calculate the freezing point of a solution. Given the molality of the NaI solution and the molecular weight of water, the freezing point of the solution can be determined.
The boiling point of a solution can be determined by measuring the temperature at which the solution changes from a liquid to a gas. This temperature is typically higher than the boiling point of the pure solvent due to the presence of solute particles in the solution.
The freezing point of a solution depends on its concentration and the properties of the solute. For a NiSO4 solution, the freezing point will be lower than that of pure water, but the exact value would require additional information such as the concentration of NiSO4 in the solution.
Since benzene is the solute and chloroform is the solvent, this is a non-electrolyte solution. The freezing point depression equation is ΔTf = Kf * m, where ΔTf is the freezing point depression, Kf is the freezing point depression constant for chloroform, and m is the molality of the solution. From this, you can calculate the freezing point of the solution.
The point at which no more solute will dissolve in a solution is known as saturation. At saturation, the solution is considered to be in equilibrium, with the rate of dissolution equal to the rate of precipitation of the solute. Additional solute added beyond this point will not dissolve and will instead precipitate out of the solution.