The volume of the pipe is (pi) x (radius)2 x (length)
= (pi) x (2)2 x (120)
= 1,507.964 cubic inches = 6.528 gallons (rounded). I have no way of knowing how much water may be in it.
Assume the "3 inch" is the pipe's inside diameter.Capacity = (pi x R2 x L) = (pi x 1.52 x 120) cubic inches.1 gallon = 231 cubic inches.Gallons capacity = (pi x 2.25 x 120 / 231) = 3.672 gallons (rounded)That's the capacity of the pipe. We have no way of knowing how much water is in it.We only know that it's no more than 3.672 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.
The water pressure at the bottom of the pipe can be calculated using the formula P = ρgh, where P is the pressure, ρ is the density of water (1000 kg/m³), g is the acceleration due to gravity (9.81 m/s²), and h is the height of the pipe (188 ft = 57.3 m). Plugging in the values, the pressure at the bottom of the pipe would be approximately 56,700 Pa, or about 8.23 psi.
Schedule - gallons/foot SCH 5s - 22.655 SCH 10s - 22.532 SCH 10 - 22.532 SCH 20 - 22.055 SCH 30 - 21.351 SCH 40s - 22.055 SCH 40 - 20.887 SCH 60 - 19.862 SCH 80s - 21.583 SCH 80 - 18.972 SCH 100 - 17.887 SCH 120 - 16.939 SCH 140 - 16.118 SCH 160 - 15.220
You can cut 15 eight-inch sections from 120 inches.
The pipe is a cylinder.Volume of a cylinder = (pi) x (Radius)2 x (length)Radius = 1/2 diameterVolume of the pipe = (pi) x (1)2 x 120 = 120 pi = 377 cubic inches = 1.632 gallons.That's the volume of the pipe. I have no way to know if there's anything in it.
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.
There need not be any water in the pipe! The volume of the pipe is 1044 Imperial gallons
The volume of water that a length of 3/4 inch pipe can hold depends on its length. The internal diameter of a 3/4 inch pipe is approximately 0.824 inches. To calculate the volume, you can use the formula for the volume of a cylinder: V = πr²h, where r is the radius (0.412 inches) and h is the length of the pipe in inches. For example, a 10-foot length (120 inches) of 3/4 inch pipe holds about 0.61 gallons of water.
250 million chicken nuggets can fight in a 120in. pipe at one time, i know from experience. Just thought that I would share that with the world. Thank you and have a great day. By the way, this is what you get for using answers.com.
Yes and it can be schedule 80 and schedule 120
120 inch pounds = 10 foot pounds.
Assume the "3 inch" is the pipe's inside diameter.Capacity = (pi x R2 x L) = (pi x 1.52 x 120) cubic inches.1 gallon = 231 cubic inches.Gallons capacity = (pi x 2.25 x 120 / 231) = 3.672 gallons (rounded)That's the capacity of the pipe. We have no way of knowing how much water is in it.We only know that it's no more than 3.672 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.
water or something else?ZERO as the 120 PSI exceeds the safe WOG pressure rating..GREAT trick question
Yes, you can flow 120 gallons per minute (gpm) through a 2-inch pipe, but it depends on various factors such as the length of the pipe, the type of fluid, and the allowable pressure drop. A 2-inch pipe has the capacity to handle this flow rate, but if the length is significant or there are many fittings, you may experience increased friction loss, which could impact the flow. Proper calculations using the Hazen-Williams equation or similar methods can help determine if the system can sustain that flow rate effectively.
120