0
Add your answer:
Earn +20 pts
What is the opposite of a colligative property?
The opposite of a colligative property is a non-colligative property. Non-colligative properties are characteristics of a substance that do not depend on the number of solute particles present but instead rely on the nature of the solute or solvent itself. Examples include color, taste, and chemical reactivity.
What type of property dependent on the amount of matter?
Extensive properties, such as mass and volume, are dependent on the amount of matter present. These properties change in proportion to the amount of substance being measured, making them directly related to the quantity of matter.
Is increase of vapor pressure a colligative property?
Yes, an increase in vapor pressure is a colligative property. Colligative properties depend on the number of solute particles in a solution, not their identity. Therefore, increasing the concentration of a solute in a solution will result in an increase in vapor pressure due to reduced effective solute-solvent interactions.
Vapor-pressure lowering is a colligative property of a solution which means that it depends only upon .?
the concentration of solute particles in the solution, regardless of the identity of the solute.
Is density a extensive property of a substance?
Density is an intrinsic property, not an extensive property of matter. This is because it DOES NOT depend on the size of the sample (amount). The density of a small piece of matter is the same as the density of a larger piece of that same matter.
What is the opposite of a colligative property?
The opposite of a colligative property is a non-colligative property. Non-colligative properties are characteristics of a substance that do not depend on the number of solute particles present but instead rely on the nature of the solute or solvent itself. Examples include color, taste, and chemical reactivity.
What type of property dependent on the amount of matter?
Extensive properties, such as mass and volume, are dependent on the amount of matter present. These properties change in proportion to the amount of substance being measured, making them directly related to the quantity of matter.
Is increase of vapor pressure a colligative property?
Yes, an increase in vapor pressure is a colligative property. Colligative properties depend on the number of solute particles in a solution, not their identity. Therefore, increasing the concentration of a solute in a solution will result in an increase in vapor pressure due to reduced effective solute-solvent interactions.
Why does adding salt to water increase its boiling point?
This is a colligative property.
A property that is determined by the number of particles present in a system but that is independent of the properties of the particles themselves?
Colligative Property! :)
What colligative property best determine molecular mass of solute?
It is Osmotic Pressure..
Which colligative property is extremely important to the functioning of living organisms?
Osmotic pressure is the colligative property that is extremely important to the functioning of living organisms. It helps regulate cell volume and maintain proper concentration gradients for essential cellular functions.
Vapor-pressure lowering is a colligative property of a solution which means that it depends only upon .?
the concentration of solute particles in the solution, regardless of the identity of the solute.
Is a colligative property of solutions in which the pressure created by osmosis equals the pressure required to prevent osmosis.?
distillation
Which colligative property is employed when coolant is added to a car's radiator to keep it from overheating?
vapour pressure lowering
Is density is a chemical property or physical property?
density is a physical property
What are the property of solute?
The presence of solutes in a solution alter the ability of solvent molecules to interact. This affects the ability of the solvent to go through phase changes. These are called colligative properties. The basic colligative properties are boiling point, freezing point, osmotic pressure, and vapor pressure.
