Can you measure the distance from the corner to either end of the pipe ? The length of the pipe is (1.414) times that distance.
l = 100/p inches.
Write an equation and solve it. Call the length of the shorter piece "x", in this case, the longer piece is "3x". The sum of the two is equal to 116 inches.
That would depend on its length which has not been given
use pythagorean's theorem... 152 + 82 = c2 c = 17 the length of the pipe will be 17 feet long
That would be a piece of threaded pipe whose length is 2 to 3 times the diameter of the pipe.
Can you measure the distance from the corner to either end of the pipe ? The length of the pipe is (1.414) times that distance.
That's going to depend on: -- the thickness of the pipe's walls -- the length of the piece you want to buy -- the material of which the pipe is composed -- where you buy it
Oh, what a happy little problem we have here! If we let the length of the shorter piece be x inches, then the longer piece would be 3x inches. Since the total length is 80 inches, we can set up the equation x + 3x = 80 and solve for x. The shorter piece is 20 inches long and the longer piece is 60 inches long. It's just that easy!
pi*radius2*length
Each pipe would be 11 feet long. Since they are all of equal length and combined they measure 44 feet, dividing the total length by the number of pipes gives you the length of each pipe.
l = 100/p inches.
Write an equation and solve it. Call the length of the shorter piece "x", in this case, the longer piece is "3x". The sum of the two is equal to 116 inches.
50cm or 51cm
That would also depend on the length of the pipe, and on how fast you want the water to move. If you are in no hurry, even the slightest pressure will be enough to push the water through the pipe.That would also depend on the length of the pipe, and on how fast you want the water to move. If you are in no hurry, even the slightest pressure will be enough to push the water through the pipe.That would also depend on the length of the pipe, and on how fast you want the water to move. If you are in no hurry, even the slightest pressure will be enough to push the water through the pipe.That would also depend on the length of the pipe, and on how fast you want the water to move. If you are in no hurry, even the slightest pressure will be enough to push the water through the pipe.
That would depend on its length which has not been given
The length of pipe is required to be known to help procure the required quantity of pipe.