1346 gallons
1795 gallons, if you fill it to the brim.
It depends on the size of the bricks and their orientation.
598 Imperial gallons, approx.
10 ft = 3.048 metres.
This pond can hold up to 1,346,493.51 gallons of water.
This cannot be answered as stated. There must be three dimensions given: width/depth/height. Or we must assume that the tank is "circular." More accurately, we assume the tank is a cylinder that is four feet high and 10 feet in diameter. The volume of a cylinder is given by the formula V = (Pi)r2h, where ris the radius of the base of the cylinder and h is its height. Since the radius is half the diameter, we get: V = (Pi) * (52) * 4 = 3.141 x 25 x 4 = 314.1 cubic feet of water. The question asked for the volume in gallons, however. One cubic foot of water contains about 7.48 gallons. So 314.1 x 7.48 = 2349.9 gallons.
A tank this size can hold a maximum of 3,590.65 US gallons of water.
The river wear is 67 miles long and 13 meters deep in the winter and 10ft at summer
The diagonal is 14.142 feet.
A tank of 21 inches wide, 8 inches deep and 59 inches long will hold 36 gallons of gas. These gallons refers to US gallons.
Approximately 24.7 cubic yards or 31.7 tons of gravel.
1.5x4x6x7.48 gallons/cubic foot=269.28 us gallons
Assuming the pipe is 15 inches = 1.25 feet in diameter, Volume = pi*D2/4*L = 12.27 cubic ft, approx. 1 cu ft = 7.4805 gallons so volume = 12.27*7.4805 = 91.800 gallons.
Approximately 8,887 gallons.
1795 gallons, if you fill it to the brim.
It depends on the size of the bricks and their orientation.
A thousand gallons of water weighs a little under four long tons. There's no fundamental reason you couldn't put it on a deck, if the deck is strong enough to support those four long tons plus whatever else you've got on the deck.