(a) The downstream Froude number.

Question

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Answer 1

Question

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

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Answer 2

Question

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

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Answer 3

Question

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

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Answer 4

Question

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

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Answer 5

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

Answer 6

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

Answer 7

Chapter 10, Problem 10.80P

To determine

(a)

The downstream Froude number.

Answer 8

Expert Solution

Answer to Problem 10.80P

The downstream Froude number is 0.395

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

V12=gy1η(η+1)2Where,η=y2y1From continuity equation,q=V1y1=V2y2

Calculation:

V12=gy1η(η+1)2Where,η=y2y1⇒10.25η=4V12=gy1η(η+1)2V12=9.81*0.25*4*(4+1)2V1=4.95 m/sNow, From continuity equation,q=V1y1=V2y2V2=V1y1y2⇒4.95*0.251V2=1.2375 m/sFr2=V2V2c⇒1.2375g*y2⇒1.23759.81*1Fr2=0.395

Conclusion:

The downstream Froude number is 0.395.

Answer 13

To determine

(b)

The flow rate per unit width.

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

Answer 14

To determine

(b)

The flow rate per unit width.

Answer 15

Expert Solution

Answer to Problem 10.80P

The flow rate per unit width is 1.2375 m³ /m-s

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

From continuity equation,q=V1y1=V2y2

Calculation:

From continuity equation,q=V2y2q=1.2375*1q=1.2375 m3/m−s.

Conclusion:

The flow rate per unit width is 1.2375 m³ /m-s.

Answer 20

To determine

(c)

The critical depth of water.

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

Answer 21

To determine

(c)

The critical depth of water.

Answer 22

Expert Solution

Answer to Problem 10.80P

The critical depth of water is 0.538 m

Answer 23

Expert Solution

Answer 24

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

The critical depth of water,yc=(q2g)1/3

Calculation:

The critical depth of water,yc=(q2g)1/3yc=(1.237529.81)1/3yc=0.538 m.

Conclusion:

The critical depth of water is 0.538 m.

Answer 27

To determine

(d)

The percentage of heat dissipation.

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.

Conclusion:

The heat dissipation is 39%.

Answer 28

To determine

(d)

The percentage of heat dissipation.

Answer 29

Expert Solution

Answer to Problem 10.80P

The heat dissipation is 39%

Answer 30

Expert Solution

Answer 31

Expert Solution

Answer 32

Expert Solution

Answer 33

Explanation of Solution

Given:

y₁ = 0.25m

y₂ = 1 m

Concept Used:

Heat dissipation,heat dissipation =hfE2*100Head Loss (hf) =(y2−y1)34y1y2

Calculation:

E=y2+V222gE=1+1.237522*9.81E=1.078 mHead Loss (hf) =(y2−y1)34y1y2Head Loss (hf) =(1−0.25)34*1*0.25Head Loss (hf) =0.421 Heat dissipation,heat dissipation =hfE*100heat dissipation =0.4211.078*100heat dissipation =39 %.