A substance with a density of 1.5.
For example Calcium.
Divide the mass by the volume and express the answer in terms of "units of mass per units of volume" - in this case, grams per cm^3..
Density is Mass/Volume. Since the mass is 65.1grams and the volume is 43.1cm, the density is 65.1/43.1 grams per cm. So the answer is 1.51044 grams/cm
It is non sense to (directly) compare units of mass (grams) and units of volume (liters). However, they are related by density: density = mass/volume Thus if a substance has a density of 100 g / 1 liter = 100g / 1000 cm³ = 0.1 g/cm³ then 100g of it will occupy a volume of 1 liter.
Depends on the substance. 'cm^3' is a measure of volume, 'grams' is a measure of mass. The international standard is '1 cm^3 = 1 gram of pure water at STP'. So if you are referring to water then 100 cm^3 = 100 grams.
The density must be 22.5 GRAMS per cm cubed, not 22.5 cm cubed. Then, Density = Mass/Volume implies Mass = Density*Volume = 22.5 * 5.42 = 121.95 grams.
Density=Mass/Volume Mass=19.2 grams Volume=4cm x 3cm x 2cm=24 cm^3 Density=(19.2 grams)/(24 cm^3)= 0.8 g/cm^3 Note the unit, grams per cm^3, which is the mass unit divided by the volume unit.
Assuming the volume is in cubic cm and not cm(!), Density = Mass/Volume = 56g/28cm3 = 2 grams per cm3
density = mass/volume volume = 2cm x 2cm x 2cm = 8 cm^3 density = 16 grams / 8 cm^3 = 2 grams/cm^3
Density = mass/volume = 106.8/12 grams/cm3 = 8.9 grams/cm
84.01 grams
Density = mass( in grams/volume( in ml, or cm^3) 22.5 = mass/2.85 cm^3 = 64.125 grams of platinum
Mass = 5.48 grams Volume = 1.988 cubic cm Density = Mass/Volume = 5.48/1.988 = 2.7565 gram per cubic cm