Explanation Given Information: The flow depth of upstream weir is 2.5 m and the height of the weir is 1.5 m . Write the expression for the weir head. H = y 1 − P w ...... (I) Here, the flow depth is y 1 and the height of weir is P w . Write the expression for the discharge coefficient of sharp-crested rectangular weir. C d = 0.598 + 0.0897 ( H P w ) ...... (II) Write the expression for the volume flow rate of the sharp-crested rectangular weir. Q ˙ = C d 2 3 b 2 g H 3 / 2 ...... (III) Here, the breath of the channel is b and the acceleration due to gravity is g . Write the expression for the ratio of weir head and weir height. r = h p W ...... (IV) Write the expression for the critical depth. y c = ( Q ˙ 2 g b 2 ) 1 / 3 ...... (V) Write expression for the downstream slope using the manning equation. S o = Q ˙ n a ( y c b ) y c 2 / 3 ...... (VI) Here, the manning coefficient is n and the constant is a . Calculation: Substitute 2.5 m for y 1 and 1.5 m for P w in Equation (I). H = 2.5 m − 1.5 m = 1 m Substitute 1 m for H and 1.5 m for P w in Equation (IV). r = 1 m 1.5 m = 0.667 Since, the ratio is lesser than one the is ( 0.667 < 1 ) hence the condition is satisfied. Substitute 1 m for H and 1.5 m for P w in Equation (II). C d = 0.598 + 0.0897 ( 1 m 1.5 m ) = 0.598 + 0.0897 ( 0.667 ) = 0.598 + 0.0598 = 0.6578 Substitute 0.6578 for C d , 9.81 m / s 2 for g , 1 m for H and 1 m for b in Equation (III). Q ˙ = ( 0.6578 ) 2 3 ( 1 m ) 2 ( 9.81 m / s 2 ) ( 1 m ) 3 / 2 = ( 0.4385 m ) ( 19.62 m / s 2 ) ( 1 m 3 / 2 ) = ( 0

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Chapter 13, Problem 105P

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The maximum slope of the downstream channel.

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Chapter 13, Problem 104P

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Chapter 13 Solutions

FLUID MECHANICS FUNDAMENTALS+APPS

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The maximum slope of the downstream channel.

Solution Summary: The author calculates the maximum slope of the downstream channel using the manning equation.

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The maximum slope of the downstream channel.

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Chapter 13 Solutions