As shown in the adjacent figure, water is discharged from a cylindrical tank through a long pipe. The velocity of water leaving the pipe is calculated with the following expression: (hint, you can think of it as f (x) = v)   In the equation: g = 9.81 m / s2, H is the initial height (m), L is the pipe length (m), and t is the elapsed time. For a pipe with a length of L = 5 m, calculate the initial height H required to reach the value of v = 6 m / s in t = 2.5 seconds, using the bisection method. Take xa = 0 and xü = 3 as initial values. Use a value of approximately 1% relative error as a criterion for stopping iterations.

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
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As shown in the adjacent figure, water is discharged from a cylindrical tank through a long pipe. The velocity of water leaving the pipe is calculated with the following expression:

(hint, you can think of it as f (x) = v)

 

In the equation: g = 9.81 m / s2, H is the initial height (m), L is the pipe length (m), and t is the elapsed time. For a pipe with a length of L = 5 m, calculate the initial height H required to reach the value of v = 6 m / s in t = 2.5 seconds, using the bisection method. Take xa = 0 and xü = 3 as initial values. Use a value of approximately 1% relative error as a criterion for stopping iterations.

V2gH
= /2gH tanh
2L
Transcribed Image Text:V2gH = /2gH tanh 2L
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