The density of nitrogen is 1,250.6 kg/m3 or 1.2506 g/cm3.
1 g per cc
The Density of PC+ABS is 1.1 g/cc
An 8 cc block with a mass of 12.9 grams has a density of 12.9/8 = 1.6125 g/cc
An object with a mass of 24 g and a volume of 8 cc has a density of 3 g/cc
120/200=0.6 grams per cc
Density = Mass/Volume = 9g/2cc = 4.5 g per cc.
density = mass/volume → density = 84 g / 12 cc = 7 g/cc = 7 g/cm³ = 7 g/ml
1 g per cc
Density is defined as the amount of matter (mass) per unit of volume of a specific substance, and is calculated by dividing the mass of any sample of the substance in question by its volume. Considering the unit of density as g/cm3 (grams per cubic centimeter or grams per cc), the density of the substance in your question is exactly 1.5 g/cm3.
It depends on the density of the stone. This can vary from 0.64 g per cc for pumice (it will float on water) to 3.4 g per cc for peridotite.
Sink. Water has a density of 1.00 g/cc (grams per cubic centimeter) so 9.18 g/cc is more dense than that.
Gold has a density of about 19.320 g/ccLead has a density of about 11.34 g/cc and would be a poor substituteTungsten has a density of about 19.6 g/cc and is close.Plutonium has a density of about 19.816 g/cc and is close, a little heavy, but the radioactivity may be a problem.Uranium has a density of about 18.9 g/cc and is also close, but also radioactive.
you need the density of the object in g/ml. Then you multiply the cc by the density and you get mass in g. If it is water, it is 1
Density of phosphorus is 1.82 g per cc or grams per cubic meters. This is the density at room temperature. It is in the form of solid at room temperature.
Density = Mass/Volume = 863 g/321 cc = 2.688 grams per cm3
Density is mass per unit volume. If 10 cm3 weighs 20g, the density is 2 g/cc.
The answer depends on the solid. The solid with the lowest known density is graphene aerogel, with a density of just 0.00016 g/cc. Osmium has the highest measured density of 22.59 g/cc (approx 141,000 times as great). Hassium has a predicted density of 41 g/cc which has not been verified. However, solids, sch as material from a neutron star will have a density of approx 10^26 g/cc.