Calculating mass is near enough impossible: it has to be measured.
You can measure its volume and then if you know its density you can work out the mass. However, that requires you to know that the cube is solid and of uniform material. I am not aware of any non-destructive method of doing so.
The shape of an object is not enough to calculate its density. You also need its mass and then Density = Mass/Volume.
The dimension of the side in cm are required to calculate the volume (cm3) and density in g/cm3 or specific gravity of the substance is then used to calculate the mass. Mass = Volume x Density
The density of an object is its mass divided by its volume. Without the volume, you cannot calculate its density.
-- Use the length of the cube's side to calculate its volume. -- Divide the cube's mass by its volume. The quotient is its density. The density is 6.25 g/cm3 . Now that you know the answer, you can fill in the missing steps, and learn something at the same time. Is that cool or what !
10
This is the question: Please help me
The shape of an object is not enough to calculate its density. You also need its mass and then Density = Mass/Volume.
The dimension of the side in cm are required to calculate the volume (cm3) and density in g/cm3 or specific gravity of the substance is then used to calculate the mass. Mass = Volume x Density
The density of an object is its mass divided by its volume. Without the volume, you cannot calculate its density.
-- Use the length of the cube's side to calculate its volume. -- Divide the cube's mass by its volume. The quotient is its density. The density is 6.25 g/cm3 . Now that you know the answer, you can fill in the missing steps, and learn something at the same time. Is that cool or what !
10
It's called "the mass of the cube" or "the cube's mass".
it depends on what it is. cube=side^3,rectangular prism=length*width*height
If the mass of the cube is 96 g, what is the density of the cube material?
It will be half the mass of the whole cube.
Then you calculate the cube root!
It depends on the size of the cube.