(338.5 g) / (25.0 mL) = 13.5 g/mL (3 significant figures)
Its density. Density is mass per unit volume.
Density of Mercury = 13.534 grams/ ml Mass of 15 millilitres = 15 x 13.534 grams = 203.01 grams = 0.2 Kg
I have no clue. Sorry. :( ^^ Ignore that ^^ I think Density = mass/volume.
Mass and volume are extensive properties, which are dependent upon the size of the sample. A larger sample will have a greater mass and volume than a smaller sample. Density is an intensive property, which does not depend on the size of the sample. Density is a ratio of mass to volume, which does not vary with the size of the sample. The density of a larger sample will be the same as the density of a smaller sample.
Density is an intensive quantity which means it is independent of size. This can be seen from the definition of density. Density = mass/volume So if the sample size increases than so does the mass, but the density remains unchanged.
Its density. Density is mass per unit volume.
Density of Mercury = 13.534 grams/ ml Mass of 15 millilitres = 15 x 13.534 grams = 203.01 grams = 0.2 Kg
Density of a substance = (mass of a sample of it)/(volume of the same sample)
I have no clue. Sorry. :( ^^ Ignore that ^^ I think Density = mass/volume.
Volume of a sample = (its mass) divided by (its density)
Density = mass / volume As sample size increases, both mass and volume increase in the same ratio.
The density of the sample is about 2.14 g/mL
Density of a substance = (mass of a sample of the substance) divided by (volume of the same sample)
The planet named Mercury has a mass of 3.3022 × 10²³ kg and density of 5.427 g/cm³ (see related link). The element called mercury has a density of 13.534 g/cm³. The mass would only have meaning for a specific amount of mercury.
Mass and volume are extensive properties, which are dependent upon the size of the sample. A larger sample will have a greater mass and volume than a smaller sample. Density is an intensive property, which does not depend on the size of the sample. Density is a ratio of mass to volume, which does not vary with the size of the sample. The density of a larger sample will be the same as the density of a smaller sample.
The density is the ratio between the mass and the volume of a sample.
Density is an intensive quantity which means it is independent of size. This can be seen from the definition of density. Density = mass/volume So if the sample size increases than so does the mass, but the density remains unchanged.