No, because pure water is not a solution and colligative properties apply only to solutions.
Colligative properties of matter occur as a consequence of the laws of thermodynamics governing the mixture of substances. The presence of more than one component in a mixture alters the physical properties relative to either component in its pure state by increasing the entropy.
True
Examples: - solid, liquid or gas - organic or inorganic - colored or colorless - pure or impure - single compound or a mixture - toxic or not - natural or artificial etc.
Colligative properties are properties of solutions that depend on the number of molecules in a given volume of solvent and not on the properties (e.g. size or mass) of the molecules. -Wikipedia
Yes. This falls into the general category of colligative properties.
Colligative properties of matter occur as a consequence of the laws of thermodynamics governing the mixture of substances. The presence of more than one component in a mixture alters the physical properties relative to either component in its pure state by increasing the entropy.
Colligative properties depends only on the concentration of solutes in solvents.
Colligative properties depends only on the concentration of solutes in solvents.
There is twice the change in colligative properties in the sodium chloride solution than in the glucose solution.
H2O is pure water.
Because of the colligative properties, ocean water's freezing point is below that of normal "pure" water. The salts disrupt the formation of a lattice, and it requires a lower temperature for the water to freeze.
Here's a hint: glacier ice comes from precipitation, aquifer water comes from a hole in the ground where minerals are. Ever hear of colligative properties? Specifically, freezing point depression?
Colligative properties depends upon concentration of the solute.
Jello DOESN'T freeze like water because it has more colligative properties that increase the freezing point.
colligative
Colligative Properties
Because you touch yourself at night.