Your question has an error, the pressure increases as area of pipe decreases
or
the pressure decreases as the area of pipe increases.
Answer: Conservation of energy
The pressure increases as the volume decreases, so when the pipe is changed from large to small, the pressure of the gas will increase.
i think defects of pipe 1. bending of pipe 2. leakage of pipe
the answer is when Pressure acts on a circular area of fluid, so the force exerted by the fluid is. Pfluid =pā A= p Ļ. 4 di. 2 . The cross-sectional area of the pipe wall. A=Ļ. 4
the pump develops pressure to have the ability to make a flow of a gas or fluid take place through a vessel, pipework or valve system, as long as there is an open end to the pipe system or vessel allowing distribution of fluid to an outlet or a return pipe back to the pump body.
To insulate the pipe if the pipe's outer layer gets cold or decreases in temperature.
The pressure within the fluid decreases
At constant pressure and constant fluid density, larger pipe results in larger flow rate.
Due to friction between the fluid and the walls of the pipe, pressure increases within the pipe.
Due to friction between the fluid and the walls of the pipe, pressure increases within the pipe.
It's not likely that any property of fluids correlates in any way with any Vatican situation. If a pipe of X cross sectional area is connected so a fluid flows at a specific velocity, and then a pipe of 2X cross sectional area is connected to the pipe of X cross sectional area, the velocity of fluid flowing in the 2X pipe will be less than what is flowing in the X pipe. In this case, what you're saying is true.
In simple terms, if a fluid is flowing through a pipe, as the radius of the pipe decreases the speed of fluid flow must increase and visa-versa.
The pressure increases as the volume decreases, so when the pipe is changed from large to small, the pressure of the gas will increase.
I think velocity is directly proportionate to its applying pressure.
By Steven Holzner In physics, Pascal's principle says that given a fluid in a totally enclosed system, a change in pressure at one point in the fluid is transmitted to all points in the fluid, as well as to the enclosing walls. In other words, if you have a fluid enclosed in a pipe (with no air bubbles) and change the pressure in the fluid at one end of the pipe, the pressure changes all throughout the pipe to match.
.The pressure of the water decreases.
decrease in pressure from one point in a pipe or a duct to another point downstream of the fluid flow. It is due to frictional forces on a fluid that flow through a pipe or a duct
the suction valve is transfered fluid one pipe to another pipe at a specific pressure and quantity.