There are 231 Cubic inches in One U.S. Gallon. Assuming your pipe has an ID of 12" a 10 foot length has 13564.8 Cubic inches. To calculate this you must first calculate the area of the 12" circle and then multiply it by the length (in inches) It would look like this:
Area = Pie x radius squared. The radius is 1/2 the diameter or 6" Sooo....
Area = 3.14 x 36 which comes to 113.04 square inches.
Volume = Area x length
Volume = 113.04 x 120" which is 13561.8 cubic inches
to convert to gallons simply divide 13561.8 by 231 = 58.72 gallons.
Hope that helps
Scott
To calculate the volume of cement slurry needed to fill a 12-inch diameter well that is 1400 feet deep, first determine the volume of the well in cubic feet. The formula for the volume of a cylinder is V = πr²h. The radius (r) is 6 inches (0.5 feet), and the height (h) is 1400 feet, resulting in a volume of approximately 1318.69 cubic feet. Converting this volume to barrels (1 barrel = 5.615 cubic feet) gives about 235 barrels of cement slurry required to fill the well.
To determine how much sand is needed to fill a 10-foot PVC pipe, you'll first need to know the diameter of the pipe, as this affects the volume. For example, a 4-inch diameter pipe has a volume of about 1.57 cubic feet per foot, so for 10 feet, it would be approximately 15.7 cubic feet. You can use the formula for the volume of a cylinder (V = πr²h) to calculate the volume based on the specific diameter of your PVC pipe. Then, convert that volume to the appropriate weight of sand based on its density.
To calculate the amount of concrete needed to fill a 12-inch diameter hole that is 18 inches deep, first convert the measurements to feet: the diameter is 1 foot and the depth is 1.5 feet. The volume of a cylinder is given by the formula V = πr²h. The radius (r) is 0.5 feet, so the volume is approximately π(0.5)²(1.5) = about 1.18 cubic feet. Thus, you would need roughly 1.18 cubic feet of concrete to fill the hole.
To determine the amount of concrete needed to fill a 6-inch wide hole that is 36 inches deep, first calculate the volume of the hole. The hole is cylindrical, so use the formula for the volume of a cylinder: Volume = πr²h. The radius (r) is half the diameter, which is 3 inches, and the height (h) is 36 inches. Thus, the volume is approximately 3.14 x (3 in)² x (36 in) ≈ 339.29 cubic inches, or about 0.197 cubic feet.
A fernco or rubber fitting. This made of rubber and had hose clamps on it. You should ask for assistance at a hardware or plumbing shop for a 2" Plastic X 2" Copper Fernco or rubber coupling.
50 feet of 2.5-inch diameter hose has a volume of: 1.7 cubic feet (12.72 liquid gallons)
52.3 cubic feet.
The volume of the hole is 8.82 cubic feet OR 66 US gallons of liquid.
A 1,850-foot long pipe with a 16-inch inside diameter has a volume of 2,580 cubic feet. In terms of liquid volume, this section of pipe can hold up to about 19,300 US gallons.
21.64 cubic feet or 161.9 US gallons of liquid.
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.
An 8-inch pipe that is 16,800 feet long has a volume of: 5,860 cubic feet (43,835.8 liquid gallons).
The liquid volume in a 6-inch pipe 1200 meters long is: 5,782.7 US gallons.
The volume of water in 1,500 feet of six-inch pipe is: 294.52 cubic feet or 2,203.2 US gallons.
The measure 30 inch by 72 feet is a flat area and no volume.
The volume of an 8-inch diameter pipe with a length of 1,000 feet is: 349.07 cubic feet (about 2,611.2 US gallons).
0.0054542 cubic feet.