Intensive properties are independent of the mass of the system. Examples include (but are not limited to) temperature, density, and specific enthalpy.
Time is an intensive property.An intensive property is a property that depends on neither the size of a system where it is being measured (or applied) nor the amount of material in the system.
Mass is an extensive (not an intensive) property, because it is proportional to the amount of material in the system.
The specific gravity is an intensive property because it's independent of amount of matter.
Brittleness is an intensive property.
It is a intensive property.
Enthalpy is a thermodynamic property of a thermodynamic system.
In the physical sciences, an intensive property (also called a bulk property, intensive quantity, or intensive variable), is a physical property of a system that does not depend on the system size or the amount of material in the system: it is scale invariant. Distance is an intensive property.
Time is an intensive property.An intensive property is a property that depends on neither the size of a system where it is being measured (or applied) nor the amount of material in the system.
Density is an intensive property because it does not depend on the amount of the substance.
Mass is an extensive (not an intensive) property, because it is proportional to the amount of material in the system.
Length is an extensive property.[ An extensive property of a system is directly proportional to the system size or the amount of material in the system, like mass and volume, but not: density or viscosity]
intensive property
intensive property
Melting point is an intensive propery because doesn't depend on the mass of sample.
Intensive Property
extensive property
Why malleability are intensive property