The volume and mass need to be calculated from measurements, but they are not read.
Its density.
Density = Mass/Volume = 62.8/40 = 1.57 g/cm3.
You would first have to convert everything to units of mass, or of volume. That requires knowing the density of the substances involved.You would first have to convert everything to units of mass, or of volume. That requires knowing the density of the substances involved.You would first have to convert everything to units of mass, or of volume. That requires knowing the density of the substances involved.You would first have to convert everything to units of mass, or of volume. That requires knowing the density of the substances involved.
That is called "density".
They have different densities.
Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.
if you know the specific gravity and the volume of the substance you can find the mass.
cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.
No
That's the definition of the density of the substance.
A decrease in density would indicate a reduction in mass relative to the volume. If the mass decreases but the volume remains the same or increases, then the density would decrease.
Yes.Yes.Yes.Yes.