Explanation Given information: The width of the channel bottom is 1.2 m , flow rate is 5 m 3 / s and the slope angle is 1 m per 100 m length. Write the expression for the area of cross-section of flow. A c = b × y ...... (I) Here, flow depth is y and width of the channel is b . Write the expression for the perimeter of the flow area. P = b + 2 y ...... (II) Write the expression for the hydraulic radius of the flow. R h = A c P ...... (III) Write the expression for the slope. S 0 = y x ...... (IV) Here, length of the channel is x and height of channel is y . Write the expression for the flow rate. V ˙ = ( a n ) A c ( R h ) 2 3 ( S 0 ) 1 2 ...... (V) Here, constant is a and manning coefficient is n . Substitute 1.2 m for b in Equation (I). A c = ( 1.2 m ) × y = ( 1.2 × y ) m = 1 .2 y m 2 Substitute 1.2 m for b in Equation (II). P = 1.2 m + 2 ( y ) = 1.2 m + 2 y = ( 1.2 + 2 y ) m Substitute ( 1.2 + 2 y ) m for P and 1 .2 y m 2 for A c in Equation (III) R h = 1 .2 y m 2 ( 1.2 + 2 y ) m = 1 .2 y m ( 1.2 + 2 y ) = 1 .2 y m 1

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ISBN: 2810022150991

Author: CENGEL

Publisher: MCG

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Chapter 13, Problem 156P

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The minimum height of the channel.

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Chapter 13, Problem 155P

Chapter 13, Problem 157P

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Chapter 13 Solutions

FLUID MECHANICS FUNDAMENTALS+APPS

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The minimum height of the channel.

Solution Summary: The author explains how to write the expression for the area of cross-section of flow.

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The minimum height of the channel.

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Chapter 13 Solutions