If the hole is empty, zero. If it is filled completely with water, 16*16*16 = 4096 units³.
If the pool measures 16-ft by 16-ft and it's 3-ft deep everywhere,then its volume is16 x 16 x 3 = 768 cubic feet = 5,745.04 gallons (rounded)That's the volume of the pool. There's no way for me to knowhow much water may be in it. It could even be empty.
16*16*2=512
Sorry, the calculation of volume requires THREE measurements.
The volume of the pool is (32' x 16' x 4') = 2,048 cubic feet = 15,320 gallons. (rounded) We have no way to know how much water may be in it. It may even be empty.
None. It's a hole! If you mean how much volume of dirt was extracted to create that cylindrical hole: volume = π x radius2 x depth = π x (10/2 in)2 x 6 ft = π x (10/2 in)2 x (6 x 12 in) ≈ 5654 cu in ≈ 3.27 cu ft but note that if the dirt was dug out bit by bit and not extracted as a cylindrical core, the volume of the resultant heap of dirt will have a larger volume as there will be air included in it.
If the pool measures 16-ft by 16-ft and it's 3-ft deep everywhere,then its volume is16 x 16 x 3 = 768 cubic feet = 5,745.04 gallons (rounded)That's the volume of the pool. There's no way for me to knowhow much water may be in it. It could even be empty.
16*16*2=512
1 cubic metre = 1000 litres ( a litre of water measures 10 x 10 x 10 cm) A container measuring 16 x 16 x 16 metres contains 16 x 16 x 16 x 1000 litres or 4,096,000 litres.
27 cubic feet = 1 cubic yardThe volume of a cylinder is (pi) x (radius)2 x (length)Volume of the cylindrical hole is (pi) x (2)2 x (4) = 16 pi = 50.265 cubic feet = 1.862 cubic yards (rounded)
Sorry, the calculation of volume requires THREE measurements.
The volume of the pool is (32' x 16' x 4') = 2,048 cubic feet = 15,320 gallons. (rounded) We have no way to know how much water may be in it. It may even be empty.
8 x 16 x 16 = 2,048 cubic feet = 3,538,944 cubic inches = 15,320 gallons (rounded)That's the volume of the pool. We have no way of knowing how much water is in it .
The volume of water in Beaker X after pouring all the water from Beaker Y will be 100cm3. The marbles in Beaker X do not displace or absorb the water, so the total volume of Beaker X will still be 100cm3.
There is no dirt in the hole, otherwise it would not be a hole! If you want to know how much dirt is required to fill the hole, or, equally, how much dirt has been removed to make the hole, that is the volume of the hole itself, then: The volume of the hole is length x width x height. The height is in inches, so must be converted to feet first: 12 in = 1 ft ⇒ 1.5 in = 1.5 ÷ 12 ft The volume of the hole is then: 19 ft x 6 ft x 1.5 ÷ 12 ft = 14.25 cu ft
None. It's a hole! If you mean how much volume of dirt was extracted to create that cylindrical hole: volume = π x radius2 x depth = π x (10/2 in)2 x 6 ft = π x (10/2 in)2 x (6 x 12 in) ≈ 5654 cu in ≈ 3.27 cu ft but note that if the dirt was dug out bit by bit and not extracted as a cylindrical core, the volume of the resultant heap of dirt will have a larger volume as there will be air included in it.
Volume of water = (pi) x (Radius of the well)2 x (depth of the water)
16 cubic yards