8 grams/4 cubic centimeters = 2 grams per cubic centimeter
An object with a mass of 24 g and a volume of 8 cc has a density of 3 g/cc
Do you mean cubic centimeters? If yes, then 5g/cubic cm.
Density is the measurement of something per a given volume. The units of density are mass units divided by volume units. An object with a mass of 40g and a volume of 8 cubic cm would have the density of 40 g / 8 cubic cm or 5 g / cubic cm
The volume of an object having a mass of 100 grams depends on the density of the object. --------------------------------- and the temperature (the hotter things are the more they expand) 100grams of water with a density of 1 - at standard temperature would have a volume of 100 cubic centimeters. a substance with density 2 - at standard temperature would have a volume of 50 cubic centimeters.
You need the mass and volume of an object in order to calculate density. density = mass/volume For example, an object has a mass of 25 grams (g) and a volume of 17 cubic centimeters (cm3). According to the density formula, density = 25g/17cm3 = 1.5g/cm3
Density = Mass/Volume = 3.68 grams per cubic centimetre.
-21
An object with a mass of 24 g and a volume of 8 cc has a density of 3 g/cc
Density = Mass/Volume = 100/50 kg/cc = 2 kg/cc
Just divide the mass by the volume.
Density = Mass/Volume = 84g / 21 cc = 4 grams per cubic centimetre.
-- Take an object or a sample of a substance-- Measure its mass, and express the result in grams-- Measure its volume, and express the result in cubic centimeters-- Divide the mass by the volume. The result of the division is the density of the object or substance,expressed in "grams per cubic centimeter".
1.5 grm/cm3
Do you mean cubic centimeters? If yes, then 5g/cubic cm.
Density = Mass / Volume Density = 26.94g / 2.568 cc = 10.5 g/cc
Density is the measurement of something per a given volume. The units of density are mass units divided by volume units. An object with a mass of 40g and a volume of 8 cubic cm would have the density of 40 g / 8 cubic cm or 5 g / cubic cm
~1.55 gm/cm3