It is 1.553 kg per m^3 at standard temperature and pressure.
The weight of sand per cubic meter can vary depending on the density of the sand. Generally, the density of sand is around 1,600 kg/m3 to 1,900 kg/m3. This means that for a cubic meter of sand, the weight can range from 1,600 kg to 1,900 kg.
The density of C40 steel is approximately 7.85 grams per cubic centimeter.
The density of brass can vary from 8300 to 8700 kg/m3.
Density unit is mass / volume. SI unit for dendity is kg/m3.
Density = Mass / Volume. kg/m3 or gm/cm3
Two grams per cm3 = 2,000 kg per m3
The density of oil is 820 kg/m3.
The weight of sand per cubic meter can vary depending on the density of the sand. Generally, the density of sand is around 1,600 kg/m3 to 1,900 kg/m3. This means that for a cubic meter of sand, the weight can range from 1,600 kg to 1,900 kg.
1000 kg/ 2 m3 = 500 kg per cubic meter density or 0.5 g/cm3 or approximately half the density of water
The density of the metal platinum is 21,450 kg/m3 or 21.45  g/cm3. The correct SI measure of the density is kg/m3.
It all depends upon the density of the substance. For 1 Kg of Mercury, with a density of 13534 Kg/m3 it will occupy a volume of about 0.0000739 m3. For 1 Kg of Hydrogen with a density of 0.0899 kg/m3 it will occupy a volume of about 11.12 m3.
817 kg/m3 as a solid, 681.9 kg/m3 as a liquid, 0.86 kg/m3 at its boiling point, and 0.73 kg/m3 at 15 °C.
The density of pure water is 1000 kg/m3. The SI unit is really kilograms per cubic meter. ------- The density of ultrapure water at 4 0C is 999,9720 kg/m3.
You need to know the denisty measured in kg/m3. Then just divide kg/hr by the density to get m3/hr.
1 liter = 1,000 cc ---> 10 liters = 10,000 cc1 kg = 1,000 grams ---> 5 kg = 5,000 gramsdensity = (mass) / (volume) = 5,000/10,000 = 0.5gram/cc
Density is the term for mass per unit volume. It can be measured in kg/m3 , g/m3 etc.
Kilograms per cubic metre. Kg/m3