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You measure its length, breath, height and mass. Then Density = Mass/(Length*Breadth*Mass) in the appropriate units.
You divide its mass by its volume.
It is the mass of the block divided by its volume.
You need its mass and volume.
The weight of the displaced water is 2/3 the weight of the brick. So the weight of the brick is 3/2 the weight of an equal volume of water ... just another way of saying that the density of the brick is 1.5 gm/cm3.
463.2 grams.
what is the density of a brick with a volume of 0.0010m and a mass of 1.9kg
You use the density of copper, which is 8.96 g/cm cubed. Therefore 50 cm cubed would weigh 50 x 8.96 g = 44.8 g.
You measure its length, breath, height and mass. Then Density = Mass/(Length*Breadth*Mass) in the appropriate units.
You divide its mass by its volume.
It is the mass of the block divided by its volume.
9.047619047619048
Density is mass divided by volume. A brick is a rectangular prism, the volume of which is length * height * width. 7000 grams / (4 * 5 * 3) = 7000 / 60j = 116 2/3 g/cubic inch
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
You need its mass and volume.
To answer this question, you need to know the density of gold, which is 19.30g/cm3. The formula for density is: Density = mass/volume The given volume of gold is 1cm3. *1cc = 1cm3. Manipulate the density formula to find mass: mass = density x volume = 19.30g/cm3 x 1cm3 = 19.30g of gold
Density = Mass/Volume = 850/(9*7*12) = 1.1243 grams per cm3