0.9648g/ml
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.
Its density. Density is mass per unit volume.
An intensive physical property does not depend on the size of the sample. An example of an intensive physical property is density. An extensive physical property does depend on the size of the sample, such as mass and volume.
I have no clue. Sorry. :( ^^ Ignore that ^^ I think Density = mass/volume.
By looking up it's density in a book. The density of lead is 11.34 g/cm3 at room temperature. So the mass of a 140.0 cm3 sample of lead is 11.34 g/cm3 * 140.0 cm3 = 1588 g
The density of water at standard temperature and pressure is 1 gram/milliliter. The size of the sample is irrelevant. If the sample is pure, then one drop of it has the same density as a tankerful of it has.
Its temperature rises. As 40C is the temperature where water has its maximum density, then the density will drop as well
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.
Its density. Density is mass per unit volume.
The temperature of gas doesn't tell you its density. The density of a sample of gas is going to depend on its volume, and any amount of gas will fill any container you put it in. After that, you can heat it or cool it to any temperature you want, and its density doesn't change.
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
If it is from the same sample, yes. The density of water does vary slightly depending on temperature and any dissolved solutes.
Density reason is that the density of a uniform material is constant Density is independent of the size and shape of the sample.
The estimated mass of 300 ml is about 300 grams. This can change based on the temperature and the density of the sample.
Density of a substance = (mass of a sample of it)/(volume of the same sample)
All intrinsic properties will be the same regardless of sample size. Some examples would be density, color, temperature, chemical reactivity, etc.
No density if a characteristic of matter. Density can vary with temperature and pressure, but a chunk of something twice the volume of another chunk of the same substance will weigh twice as much because the two chunks have the same density.