It depends upon the density of the material that you are considering. For example, if the density is 1 kg/L, then it would be 24 litres. If the density is 2 kg/L, then it would be 12 litres. If the density is 0.5 kg/L, then it would be 48 litres.
6.25 kg/45 litres = 6250 grams/45 litres = 6250/45 grams per litre =138.88... gpl
The density of kerosene is between 0.78 and 0.81 0.78 to 0.81 kg per litre. That means 600 kgs require between 600/0.81 and 600/0.78 litres. That is, between 741 litres and 769 litres.
18.9 kg
density of sand is approx 2.6 kg/L density = mass / volume => mass = volume * density and as 1m3 = 1000 litres mass = 1000 litres * 2.6 kg/l =2600kgs
a kilo is a thosand 40 X 1000 litres = 40000 Litres
It depends upon the density of the material that you are considering. For example, if the density is 1 kg/L, then it would be 24 litres. If the density is 2 kg/L, then it would be 12 litres. If the density is 0.5 kg/L, then it would be 48 litres.
litres is volume, ton is weight. but if it's water then 40 x 25 litres = 1000 kg (1 ton)
18 kg
90 litres?
none because kg are measuring mass and litres are measuring liquid.
The weight of bitumen per liter can range from 900 to 1,400 kilograms, depending on the type and specific gravity of the bitumen. However, the most common value used for estimation is around 1,000 kilograms per liter.
6.25 kg/45 litres = 6250 grams/45 litres = 6250/45 grams per litre =138.88... gpl
There is no sensible answer to this question. A kg is a measure of mass while a litre is a measure of volume. A kg of air (at normal temperature and pressure) will occupy far more litres than a kg of water.
if it's water then 8 litres
10.98 kg at 20 deg C.
2.99 kg at 20 deg C.