V = 703.7 cubic inches.
The volume of a 12 inch x 12 inch pipe is: 1,360 cubic inches
To determine how much water a 6-inch pipe can hold, you need to calculate its volume based on its length. The volume (in gallons) can be found using the formula for the volume of a cylinder: ( V = \pi r^2 h ), where ( r ) is the radius (3 inches for a 6-inch pipe) and ( h ) is the length of the pipe in inches. For example, a 10-foot (120-inch) length of a 6-inch pipe would hold about 18.9 gallons of water.
The volume is 3,848 cubic inches per linear inch of 70-inch diameter pipe. In terms of liquid volume, this pipe would contain 16.66 gallons of liquid per linear inch.
To find the volume of a pipe, you can use the formula for the volume of a cylinder: V = πr^2h, where r is the radius and h is the height of the cylinder. For a 2-inch diameter pipe, the radius is 1 inch. Thus, the volume of 12 inches of 2-inch pipe would be π * 1^2 * 12 = 12π cubic inches.
The volume of this pipe is 1,113 cubic inches or 0.644 cubic feet.
A 100-foot pipe with an inside diameter of 12 inches has a maximum volume of about 78.54 gallons of water.
The volume of one foot of 3-inch PVC pipe is: 84.82 cubic inches. In terms of liquid, this equates to about 0.3672 (US) gallons or 47 fluid ounces for that section of pipe.
The volume of this pipe is 261.8 cubic feet.
The volume of a cylinder (pipe) is: pi*(r^2)h If a pipe has an 8 inch radius, then to find the volume you substitute: V = pi*(8^2)h If a pipe has a 4 inch radius, then to find the volume you substitue: V = pi*(4^2)h Thus, an eight inch pipe can carry 150.72*h more units cubed.
The pipe's volume is the product of its cross-sectional area and its length. The area of a circle is pi*(radius)^2, so in this case pi*9sq.in. or about 28.3 square inches. Multiply this area by the length of pipe you are using to obtain a volume. A 10 foot length of 6 inch pipe will have 3393 cubic inches of volume or 1.96 cubic feet, or 14.7 US Gallons.
To calculate the volume of water in a pipe, you need to use the formula for the volume of a cylinder, which is V = πr^2h, where V is the volume, r is the radius, and h is the height (or length in this case) of the cylinder. In this case, the radius is half of the diameter, so the radius would be 2 inches. Converting the length to inches, we have h = 120 inches. Plugging these values into the formula, we get V = π(2^2)(120) = 480π cubic inches. This is approximately 1507.96 cubic inches of water in a 4-inch pipe that is 10 feet long.
Approx 21.2 cubic inches.