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 object with a mass of 24 g and a volume of 8 cc has a density of 3 g/cc
An 8 cc block with a mass of 12.9 grams has a density of 12.9/8 = 1.6125 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.
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.
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 = 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.