Density has dimensions of (mass) divided by (volume) = M L-3
The volume of a rectangular solid with those dimensions is 27 cm3.If we also knew its mass, then we could calculate its density.
Marshmallows vary in density. They are not a pure substance. As they contain air bubbles their density can be altered merely by squeezing them as can their volume but their mass would be the same even if smashed into pieces. The marshmallow's physical dimensions would change.
The answer depends on what information you have been provided with. If you have only the linear dimensions then it is: Length * Breadth * Height * Density.
Density = mass/volume Mass = (density) x (volume) Volume = mass/density
Density = mass/volumeMass = (density) x (volume)Volume = mass/density
shape, geometrical dimensions, mass, density, color, hardness
Weight and length cannot be associated without knowing other dimensions for the volume, or the density
The mass is measured with a balance. Measuring the dimensions the volume can be calculated; or after determination of the density: V=M/d.
It is a measure of mass per unit volume and is derived using measures of mass and lengths in three orthogonal dimensions.
Linear mass density. You would use this for an object whose mass is uniform in two dimensions, like a rod or a flagpole.
mass divided by volume, or mass divided by length cubed.
Density is equal to the mass of the substance divided by its volume: D (density) = M (mass) / V (volume), so the density equals 94/12= 7.833...
the density would be 13.5. the density would be 13.5.
Density has dimensions of: mass/volume for example: the density of water at 4 °C is 1.000 g/cm3 Specific heat has dimensions of: energy/(mass·temperature) for example: the specific heat of water is about 1 calorie/g·°C
The volume of a rectangular solid with those dimensions is 27 cm3.If we also knew its mass, then we could calculate its density.
1.3 g/cm3
atomic mass volume any one of its spatial dimensions