Surface area of the pipe: diameter*pi*length but make sure that the diameter and length are both in meters or inches.
It is: 0.5*pi*7 = 11 square feet rounded
Measure the length of the pipe and the inner Dia of the pipe. 2 x pi x Radius x length is the inner surface area
It depends on what you mean by a 30 pipe. Is 30 the cross sectional area - in which case, what is the length of the pipe? Is 30 the length - in which case, what is the cross-sectional area?
It depends on the length of the pipe.
Surface area of the pipe: diameter*pi*length but make sure that the diameter and length are both in meters or inches.
The pipe's volume is the product of its cross-sectional area and its length. The area of a circle is pi*(radius)^2, so in this case pi*9sq.in. or about 28.3 square inches. Multiply this area by the length of pipe you are using to obtain a volume. A 10 foot length of 6 inch pipe will have 3393 cubic inches of volume or 1.96 cubic feet, or 14.7 US Gallons.
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 area of Pipe Spring National Monument is 161,874.256896 square meters.
Hello, Velocity in a pipe is the flow divided by the area. If the pipe is full, the area is simply pi*r². Here is a useful calulator for full pipes: http://www.tasonline.co.za/toolbox/pipe/velocity.htm
Volume = Cross-sectional area X Length. So Area of a circle = PI times radius². Approximate PI with 3.14, then radius = diameter / 2 = 3 inches. (pipe normally is specified in inside diameter). So Area = (3 in)² x 3.14 = 28.26 in². Now multiply that by length of pipe (in inches) to find volume capacity (in cubic inches) of that section of pipe.
It is: 0.5*pi*7 = 11 square feet rounded
Measure the length of the pipe and the inner Dia of the pipe. 2 x pi x Radius x length is the inner surface area
It depends on what you mean by a 30 pipe. Is 30 the cross sectional area - in which case, what is the length of the pipe? Is 30 the length - in which case, what is the cross-sectional area?
The answer will depend on the length of the pipe.
To calculate the surface area of a pipe fitting, you need to use the formula 3.14 x L x D. The L stands for the length of the pipe and the D is the diameter of the pipe.
It depends on the length of the pipe.