Length times width times depth equals volume. So, 120cm x 80cm x 25cm = 240,000 cubic cm or cm3 One liter is 1,000 cm3, therefore sandbox volume of 240,000 cm3 divided by 1,000 cm3 gives the volume as 240 liters.
That depends entirely on what kind of sand how deep you spread it. As an approximation, you could assume a bulk density for dry sand of about 110 lb/ft3. One ton (2000 lb) of sand would thus be about 18.18 ft3 or 0.673 yd3. If you spread it 6 inches deep you could cover about 4 square yards. At a foot deep, you would cover 2 square yards. At 3 inches deep you would cover 8 square yards. At 1 inch deep you would cover 24 square yards Reported bulk densities for sand range from 78 lb/ft3 for molding sand to 130 lb/ft3 for moist sand.
There are 3,634 liters (960 gallons) of water in a pool that is four feet in diameter and 8 feet deep.
(33.33)/(the number of cubic feet in each bag)
About 49,246.3 liters of water.
The answer will depend on how deep a layer of sand.
It is about 0.33 m deep.
That depends entirely on what kind of sand how deep you spread it. As an approximation, you could assume a bulk density for dry sand of about 110 lb/ft3. One ton (2000 lb) of sand would thus be about 18.18 ft3 or 0.673 yd3. If you spread it 6 inches deep you could cover about 4 square yards. At a foot deep, you would cover 2 square yards. At 3 inches deep you would cover 8 square yards. At 1 inch deep you would cover 24 square yards Reported bulk densities for sand range from 78 lb/ft3 for molding sand to 130 lb/ft3 for moist sand.
That depends on how deep the sand is.
They live in deep seas in hte sand. They live in deep seas in under sand.
There are 3,634 liters (960 gallons) of water in a pool that is four feet in diameter and 8 feet deep.
About 129,715 liters.
About 39,397 liters.
About 45,025 liters.
A 22-foot round pool that is 4 feet deep holds about 43,238.5 liters of water.
sand gets the pool dirty and the sand wiil just dissolve
(33.33)/(the number of cubic feet in each bag)
right at 1809,000 liters