y 2, V 2, Fr 2 , h f , percentage dissipation and horse power.

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Answer 1

Question

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

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Answer 2

Question

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

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Answer 3

Question

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

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Answer 4

Question

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

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Answer 5

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

Answer 6

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft

Conclusion:

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft.

Answer 7

Chapter 10, Problem 10.81P

To determine

To compute: y_2,V_2,Fr₂, h_f, percentage dissipation and horse power.

Answer 8

Expert Solution & Answer

Answer to Problem 10.81P

y2=5.75 ftVelocity V2=4.35 ft/sFr2=0.32hf=4.66 ft% dissipation =44 %Power dissipated =13.2 hp/ftCrititcal depth yc=2.69 ft

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

Given information:

q = 25 ft³ /s-ft

y₁=1 ft

Concept:

Froude number ,Fr=VVcFrom continuity equation,q=y1V1=y2V2E=y+V22g 2 y 2 y 1 =−1+ (1+8F r 1 2 ) 1/2 hf=( y 2 − y 1 )34y2y1% dissipation =hfE1Power dissipated = ρgqhfCritical depth , yc=( q 2 g)1/3

From continuity equation,q=y1V1V1=qy1=V1=25 ft3/ft−s1 ftV1=1 ft/sFr1=V1V1cFr1=25g y 1⇒2532.2*1Fr1=4.41 2 y 2 y 1 = (1+8F r 1 2 ) 1/2 −1 2 y 2 1 = (1+8* 4.41 2 ) 1/2 −1 y2=5.748 ftFrom continuity equation,q=y2V2V2=qy2V2=25 ft3/ft−s5.748 ftV2= 4.35 ft/sFr2=V2V2cFr2=4.35g y 2⇒4.3532.2*5.748Fr2=0.32hf=( y 2 − y 1 )34y2y1hf=( 5.85−1)34*5.85*1hf=4.66 ft

% dissipation =hfE1E1=y1+V122gE1=1+2522*32.2E1=10.7 ft% dissipation =4.6610.7*100%% dissipation =44 %Power dissipated = ρgqhfPower dissipated =62.4*25*4.66/550Power dissipated = 13.2 hp/ftCritical depth , yc=( q 2 g)1/3 Critical depth , yc=( 25 2 32.2)1/3 yc=2.69 ft