For a 3 foot diameter pipe, 52.9 US gallons per foot of length.
That depends on the material of the pipe. A lead pipe would weigh more than a plastic one. However, if you know the mass per cubic inch of the material, you can work it out, here's how you do it: Let m = the mass of one cubic inch of the material Let w = the total weight of the pipe Let l = the length of the pipe in inches then the equation you want is this: w = lmπ(r2 - (r - 0.5)2) Given that we want the weight per foot, we can say that "l", the length in inches, equals 12. We can also replace "r" with the outer radius of the pipe: w = 12mπ(302 - 29.52) w = m × 333π w ≈ m × 1046.15 Where w is the weight of the pipe, and m is the mass of the material per cubic foot.
pound per foot
about 25 bucks per foot .
0.3672 gallon per foot of pipe.
A 4-inch Schedule L copper pipe weighs approximately 9.52 pounds per foot.
About 0.65 gallon per foot.
For a 3 foot diameter pipe, 52.9 US gallons per foot of length.
42 42.000 STD .375 166.7141.250 42 42.000 XHY .500221.61 41.000 Weights are 166.71 per ft. and 221.61.
That depends on the material of the pipe. A lead pipe would weigh more than a plastic one. However, if you know the mass per cubic inch of the material, you can work it out, here's how you do it: Let m = the mass of one cubic inch of the material Let w = the total weight of the pipe Let l = the length of the pipe in inches then the equation you want is this: w = lmπ(r2 - (r - 0.5)2) Given that we want the weight per foot, we can say that "l", the length in inches, equals 12. We can also replace "r" with the outer radius of the pipe: w = 12mπ(302 - 29.52) w = m × 333π w ≈ m × 1046.15 Where w is the weight of the pipe, and m is the mass of the material per cubic foot.
pound per foot
25 lbs
That depends on the diameter of the pipe.
In a pipe with diameter 8 ft, there will be just over 376 US gallons per foot.
about 25 bucks per foot .
0.3672 gallon per foot of pipe.
1 '' gi b class pipe weight of per mtr