Explanation Given information: The width of channel is 7 ft , flow depth is 3 ft , volume flow rate is 180 ft 3 / s . Figure-(1) represents the sharp-crested rectangular weir. Figure-(1) Write the expression for total depth. y 1 = H + P w ...... (I) Here, weir head is H , full depth of weir is P w . Write the expression for discharge coefficient of sharp-crested rectangular weir. C wd,rec = 0.598 + 0.0897 H P w ...... (II) Write the expression for flow rate of sharp-crested rectangular weir. V ˙ s,rec = C wd,rec 2 3 b 2 g H 3 / 2 ...... (III) Here, acceleration due to gravity is g . Calculation: Substitute 3 ft for y 1 . 3 ft = H + P w H = 3 ft − P w Substitute 3 ft − P w for H in Equation (II). C wd,rec = 0.598 + 0.0897 ( 3 ft − P w P w ) Substitute 0.598 + 0.0897 ( 3 ft − P w P w ) for C wd,rec , 180 ft 3 / s for V ˙ , 7 ft for b , 3 ft − P w for H and 32.2 ft / s 2 for g in Equation (III). 180 ft 3 / s = [ 0.598 + 0.0897 ( 3 ft − P w P w ) ] 2 3 ( 7 ft ) 2 ( 32

Fluid Mechanics Fundamentals And Applications

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ISBN: 9780073380322

Author: Yunus Cengel, John Cimbala

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 13, Problem 106EP

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The appropriate height of weir.

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Chapter 13, Problem 105P

Chapter 13, Problem 107P

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Chapter 13 Solutions

Fluid Mechanics Fundamentals And Applications

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The appropriate height of weir.

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The appropriate height of weir.

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