Water flowing through a pipe of constant cross section, 11 cm in diameter, as shown in Fig. shown in the figure below. It has a speed of 5 m/s at the bottom and has traveled 2 m in height before being dumped into the environment, where the local atmospheric pressure is 1 atm. Assuming conservation of flow, what is the velocity of the water as it leaves the pipe (b) Calculate the pressure using Bernoulli's equation. (C) Determine the time, in seconds, required for 1 m³ of water to flow through the opening of the pipe.
Water flowing through a pipe of constant cross section, 11 cm in diameter, as shown in Fig. shown in the figure below. It has a speed of 5 m/s at the bottom and has traveled 2 m in height before being dumped into the environment, where the local atmospheric pressure is 1 atm. Assuming conservation of flow, what is the velocity of the water as it leaves the pipe (b) Calculate the pressure using Bernoulli's equation. (C) Determine the time, in seconds, required for 1 m³ of water to flow through the opening of the pipe.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Water flowing through a pipe of constant cross section, 11 cm in diameter, as shown in Fig. shown in the figure below. It has a speed of 5 m/s at the bottom and has traveled 2 m in height before being dumped into the environment, where the local atmospheric pressure is 1 atm.
Assuming conservation of flow, what is the velocity of the water as it leaves the pipe
(b) Calculate the pressure using Bernoulli's equation.
(C) Determine the time, in seconds, required for 1 m³ of water to flow through the opening of the pipe.
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