Density = mass/volume,
So,
Density = 57g/29cm3 = 2.0g/cm3*
The number on the calculator is 1.965517241, which is rounded to 2.0 because of significant figures.
Density = mass / volume As sample size increases, both mass and volume increase in the same ratio.
The density is 2,43 g/cm3.
Volume of a substance is measured in cubic units and is given by dividing its mass by its volume. In this case it is not possible to find the density of the cork since 2.71cm2 is a measurement of an area.
Time squared over distance. No, it is not "Density". Density is mass divided by VOLUME. Weight is the force of gravity acting on the mass. force = mass * acceleration. Thus, mass/force = 1/acceleration, or, in generic units, time squared over distance. Don't believe every game show answer you hear.
Limestone is a solid and the mass is measured in units of mass.Mass = Volume x Density; for limestone the density is very variable.
The density is 10.7 g/mL. The sample is not pure lead because the density of pure lead is 11.3 g/mL.
density = mass / volume = 62g / 21.9 cm³ ≈ 2.8 g/cm³
Its density. Density is mass per unit volume.
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.
The density of anything is the ratio of the weight (really the mass) to the volume that the material occupies. Water was involved in the original definition of units of mass and volume, so it has a rather special value of density. To a good approximation, the density of water is 1 gram per milliliter.
Density is measured in units of mass divided by units of volume. The SI unit is kilograms/meter3.
density has to be in units of mass/volume, or grams/ml in your case. If density is 0.75 g/ml, then mass = .75 x 120 = 90 grams. Check the question again to be sure
Volume of a sample = (its mass) divided by (its density)
Density = Mass/Volume so you need to measure the mass of the substance and divide by the volume that it occupies.
Density is the mass of an object divided by the volume the object occupies. D = m/v
Density = mass / volume As sample size increases, both mass and volume increase in the same ratio.