no it could not
Density=mass/volume
it has no effect. density of a substance is the same no matter the size or shape of the sample.
If two different people use two different methods to calculate the density of a sample of the same substance, and they get two different answers, then at least one of them made a mistake. If the method of calculation makes a difference, then the whole concept of density is out the window. The only possible difference between two statements of the density of a substance should be the units in which the density is stated. But one unit can always be converted to the other, and when they're both in the same units, they had better both be the same number.
Because density is DEFINED as mass/volume.
Adding mass may increase or decrease the density if the substance added is different. Merely changing the mass will not affect the density.
It acually doesn't affect it's density, only the mass changes.
A relation between the boiling point and density doesn't exist.
Density is mass divided by volume. Density is an intensive property which means that increasing the amount of the substance does not increase its density.
The shape of a substance does not affect density of a substance. The density is a physical Quantity which is predefined and constant for each substance. By the equation Density=mass/volume It is clear that the density is affected by mass & volume of the substance and not the shape. However the shape of a substance affects the area acquired by the substance. Like every natural body is spherical in shape like river stones,asteroids,planets,raindrops,dewdrops because they try to acquire the minimum possible area and sphere is the only geometrical figure occupying minimal area.
The density of a substance is its mass divided by its volume. So for the same volume the higher the mass, the higher the density.
Yes, both do. Density = Mass/Volume, So density is directly proportional to mass and inversely proportional to volume.
Intensive property is the classification of property that does not affect density. In science, there are ten intensive properties of a substance.