If you are given the volume [V] and density [p], the object`s mass [m] is given by the relation:
m = p*V , where (*) indicates multiplication.
Also, make sure that all units are in the same measurement system (Metric, Imperial, etc.)
As an example, lets say I have a tank of water (p=1000 kg per m3 for water) that is 15m3 in volume. The mass of water in the tank is:
m = (1000)*(15) kg = 15, 000 kg
volume=v (m3)
density=d (kg/m3)
mass=m (kg)
Answer: density= kg\m3 =mass/volume
Density = (mass) divided by (volume)
If you know the mass and density, then
Volume = (mass) divided by (density)
density = mass/volume, therefore volume = mass/density or volume = mass x 1/density
The volume is the ratio between mass and density.
Density = Mass / Volume
You can find the mass of the object by multiplying volume and density.
Density is the amount of mass that can fit into a given volume within an object or substance.
Density depends on mass and volume of an object.
Density = (Mass) divided by (Volume) If you know the density and volume, then Mass = (Density) times (Volume)
You do not give a value for the volume. Density is worked out by the following expression: density = mass/volume Your units will be g per ml
density=mass/volume volume=mass/density
You can find the mass of the object by multiplying volume and density.
Density is mass/volume. So for a given mass as the volume increases the density will reduce.
Volume = mass / density
You have to multiply the density by the volume to get the mass of the object.
Density = Mass/Volume so Volume = Mass/Density. Provided the object is solid.
Density is mass/volume. So for a given mass as the volume increases the density will reduce.
density
The mass of a substance in unit volume is its density.
You need also the mass of the material: volume = mass/density. After you measure the mass of the object, then divide by the density, to find volume.
Density is a property relating to the mass and volume of a given substance.
Density is the amount of mass that can fit into a given volume within an object or substance.