Because density is an intensive property, it does not depend on the amount of material. Density is a ratio between mass and volume, D=M/V. That specific ratio is constant for any material. For example, the smallest sample of aluminum and the largest sample of aluminum have a density of 2.70 g/cm^3 at room temperature. Density does change with temperature because temperature affects volume. The density of all samples of aluminum at its melting point is 2.375 g/cm^3.
https://en.wikipedia.org/wiki/Aluminium
No.
The density does not change, as density is the amount of material in a given amount of space. But each piece has the same amount of space and material relative to each other.
Density is simply the amount of "stuff" in a given amount of area.Density is how much mass a material has for a volume.
Because the density of an object does not depend on the amount in an object but the hardness or softness of that object
Intensive properties do not depend on the matter's amount of the physical system (mass density, temperature ...). Extensive properties do depend on the amount of matter that is present (volume, mass and size).
Intensive because it doesn't depend on the amount of material.
no it does not
Density is an intensive property because it does not depend on the amount of the substance.
No.
Density doesn't depend on the material mass.
2 g/mL
A rectangle is just a geometric shape; it doesn't have a "density".A material shaped like a rectangle can have a density; in this case, the density will depend on what material you are using.
Density is the characteristic property of the material and it does not depend on the liquid in which it is immersed
The density does not change, as density is the amount of material in a given amount of space. But each piece has the same amount of space and material relative to each other.
density
There can be no equivalence and the answer will depend on the density of the material in question.
Density is the amount of material which will make up something. Density can be varied accordingly to make items of the same material, but for different uses.