I believe this would vary with
A. The diameter of the inside of the hose, and
B. The pressure of water going through the hose.
You could always try filling up a litre container with a stopwatch and divide that number of seconds by 60.
Pressure effected by the volume of substance being pushed through. For instance, the longer the hose, the more water being pushed through=greater pressure. The shorter the distance the less water being pushed through=less pressure.
As much as you want. But a larger quantity will take longer to pass through the hose.
volume shape density
The purge-dip system is also called the 'bubbler method.' Air is blown through a hose at a certain depth; the pressure of the air that is necessary to push the water out of the tip of the hose is equivalent to the level of the water.
volume after anchor was in water minus volume of water without anchor in it = the volume of the anchor
water pressure goes down because the force of the water going through the space decreases
1.03 gallons
Volume of a cylinder = (pi) x (radius)2 x (length) Volume of the hose = (pi) x (2 in)2 x (1200 in) = 15,080 cubic inches= 65.28 gallons That's the volume of the hose. We have no way to tell how much water there may be in it.
Pressure effected by the volume of substance being pushed through. For instance, the longer the hose, the more water being pushed through=greater pressure. The shorter the distance the less water being pushed through=less pressure.
There need not be any water in the hose! Its capacity is approx 163461 cm3 or 163.5 litres.
If you are asking about a garden water hose. This can move with the force of water traveling through it. It can also move from the temperature of the water it holds.
The capacity of a 25 ft hose with a diameter of 3 inches is 1.23 cubic feet. That is the maximum volume of water in the hose: there need not be any!
When the thermostat is closed, the coolant circulates through the bypass hose from the water pump to the block.When the thermostat is closed, the coolant circulates through the bypass hose from the water pump to the block.
I assume you want to find out how much water fits in the hose. Treat the hose as a cylinder - that should be a good approximation, even when you bend it. Measure the length and the interior diameter. Divide the diameter by 2 to get the radius. Convert everything to feet, and finally use the formula for a cylinder to get the volume.
You have a top radiator hose and a bottom radiator hose.
41/2
A standard fire hose is 50 feet long. A hose this length with a 2-inch radius grants about 4.36 cubic feet. This volume holds 32 gallons of water.