(assuming this is a cylinder)
V = πr²h
V = (3.14159) × (2.25)² × 20
V = 3.14159 × 5.0625 × 20
V ≈ 318.09 cubic feet or 2379.48 gallons
Volume = pi * radius^2 * height
A cylinder 50 feet in height and 6 inches in diameter can hold up to 73.44 gallons of water.
Results obtained by multiplying the length and width and height of the internal volume of the bath tub bath tub.
V = Pi x radius squared x height
Length times width times height (lwh) is a way to figure out volume. If you try to do it with water displacement, the wood will adorn the water and ruin the calculations.
calculate the volume of water a drum can take the drum is 72inch diameter by60inch height
Volume of water = (pi) x (Radius of the well)2 x (depth of the water)
Volume = pi * radius^2 * height
Measure the height of the water column and the diameter of the fountain. Volume = πr2h
You need three dimensions to get a volume. 12 feet x 30 inches is an area. If you have a round pool you have only diameter and height!
It does affect the diameter. At a high height the diameter gets bigger. At a low height the diameter is slower.
Increase the water main diameter
A round bath is a cylinder. The volume of a cylinder = area of the base x perpendicular height. Area of the base is πr2 (pi x radius x radius). The radius is half the diameter. The diameter is the width of the circular base. The perpendicular height will be the depth of the water, whether it's up to the top or up to where you have a bath.
50762 US gallons, but it is a pool with an extremely strange shape!
A 14 foot diameter tank has a volume of 154 cubic feet per foot of height and it takes 7.48 gallons per cubic foot7.48 * 154 = 1150 gallons per foot of height
1 liter = 1/1000 m3 ⇒ 1000 liters = 1 m3 volume_of_cylinder = π x (diameter/2)2 x height ⇒ diameter = 2 x √(volume/(π x height)) = 2 x √(1/1.5π) ~= 0.92m (or 92cm).
The volume of water in one meter of a 22mm-diameter pipe is: about 0.1 US gallons.