It is 430 gms per 20 cu.cm, which is generally reduced to 430/25 gm per 1 cu.cm, or 17.2 g/cm3 .
density = mass ÷ volume = 890 g ÷ 100 cm³ = 8.9 g/cm³
density = mass/volume = 2g/40cm3 = 0.05g/cm3
Density = mass/volume , so 200/50 = 4 g / cubic cm.
Volume cannot be measured in cm since that is a unit for measuring length.
If the volume is 0.121 CUBIC cm, then the calculated density would be 22.479 grams per cubic cm. This is somewhat lower than the true density (at standard temperature and pressure) of osmium.
21.5 g/cm cubed
Density is the measure of mass per unit volume. Volume cannot be measured in centimetres (cm). Without a measure of volume, the answer is indeterminate.
Density = mass/volume Volume = length X width X height Volume = 20 cm X 5 cm X 1 cm = 100 cm3 Density = 500 g divided by 100 cm3 = 5 g/cm3 (or 5g/ml)
The volume cannot be 25 cm, since that is not a volume measure. Assuming the volume is 25 cm3, Density = mass/volume = 500 g / 25 cm3 = 20 grams per cm3
Volume = 2.5 cm*42 cm*1.8 cm = 189 cm3 So density = mass/volume = 189/9.5 = 20 grams per cm3
Density is mass per unit volume, so 0.5 g/cm3 = (20 g) / (Volume), or Volume = (20 g) / (0.5 g/cm3) = 40 cm3.
Volume is measured in cm^3, not cm! The density is 14.375 grams per cm^3.
20/10 g/cm^3 =2 g/cm^3
Density = Mass Density = 100g/50 cm. Density = 2g/cm3---------Volume.
Density can't be in cm ---- it's in g/cm cubed
Assuming you mean a volume of 38 cm³ (as cm are a measure of length): density = mass/volume = 277g / 38cm³ ≈ 7.289 g/cm³
There is no density that can be derived from a volume unless you know what material fills the volume. The volume in this case is 8 cc's.