you first find it's mass by weighing it on a balance and then find it's volume by using water displacement. after finding them, Density=the mass divided by volume D=M/V
Low Density a Metal?NO!!!!
Every metal has a density.
The specific gravity of a metal is determined by comparing its density to the density of water. To find the specific gravity of a metal, divide its density by the density of water (1000 kg/m^3 at 4°C). The specific gravity is a unitless value that indicates how many times denser the metal is compared to water.
Different metals have different densities, so to find the density either the type of metal or both the size and mass of the cube must be provided. Density is mass divided by volume.
The density of the metal in the crushed can remains the same as the density of the metal before it was crushed. Density is an intrinsic property of a material that does not change with physical alterations like crushing. So, the density of the metal in the can will not change due to the crushing process.
If you cut a metal in half, each half will have the same density as the original metal, so the density of each half will still be 8.4. The density of a material does not change when you cut it into pieces.
The density of the metal will remain the same. However because the volume of the object has been reduced the overall density will increase
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. The mass of the metal remains constant; only its shape changes when the can is crushed.
how would density of a metal be affected if it were wet
-- Get a pure piece of it. The size of the piece doesn't matter. -- Measure the mass of the piece. -- Measure the volume of the piece. -- The density of the substance is mass of the piece/volume of the piece.
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. While the volume of the can decreases when it is crushed, the mass of the metal remains constant. Therefore, the density, which is mass divided by volume, remains unchanged.
To find the density of the metal, calculate the density of water first (1g/mL). Next, use the volume increase (54.89 mL - 50.00 mL) to calculate the volume of the metal in the cylinder (4.89 mL). Divide the weight of the metal (13.21g) by its volume (4.89 mL) to find its density, approximately 2.7 g/mL.