Fluid Mechanics, 8 Ed
Fluid Mechanics, 8 Ed
8th Edition
ISBN: 9789385965494
Author: Frank White
Publisher: MCGRAW-HILL HIGHER EDUCATION
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Chapter 10, Problem 10.95P
To determine

i.

The velocity V4 for the section 4 for the given flow.

Expert Solution
Check Mark

Answer to Problem 10.95P

The velocity V4for the given flow is 2.64 m/s.

Explanation of Solution

Given:

y3 = 0.3 m

h = 0.1 m

Concept Used:

Fr=VVcE=constant=E1=y1+V122gForuniformflow,q=y1V1=y2V2

Calculation:

Section2issupercrititcalandsection4issubcrititcal.Therefore,itissafetoassumesection3iscritical.Fr3=1Fr3=V3V3cV3=Fr3*V3cV3=1*gy3V3=1*9.81*0.3V3=1.72m/sForuniformflow,q=y4V4=y3V3y4V4=y3V3y4V4=0.3*1.72y4V4=0.515.....(1)Fromconservationofenergy,E4=E3=Ey4+V422g=y3+V322g+hy4+V422g=0.3+1.7222*9.81+0.1y4+V422g=0.55=E....(2)Solving(1)and(2),weget,V4=2.64m/s

Conclusion:

The velocity V4 for the given flow is 2.64 m/s.

To determine

ii.

The depth y4 for the given flow.

Expert Solution
Check Mark

Answer to Problem 10.95P

The depth y4for the given flow is 0.195 m

Explanation of Solution

Given:

y3 = 0.3 m

h = 0.1 m

Concept Used:

Fr=VVcE=constant=E1=y1+V122gForuniformflow,q=y1V1=y2V2

Calculation:

Section2issupercrititcalandsection4issubcrititcal.Therefore,itissafetoassumesection3iscritical.Fr3=1Fr3=V3V3cV3=Fr3*V3cV3=1*gy3V3=1*9.81*0.3V3=1.72m/sForuniformflow,q=y4V4=y3V3y4V4=y3V3y4V4=0.3*1.72y4V4=0.515.....(1)Fromconservationofenergy,E4=E3=Ey4+V422g=y3+V322g+hy4+V422g=0.3+1.7222*9.81+0.1y4+V422g=0.55=E....(2)Solving(1)and(2),weget,y4=0.195m

Conclusion:

The depth y4 for the given flow is 0.195 m.

To determine

iv.

The depth y1 for the given flow.

Expert Solution
Check Mark

Answer to Problem 10.95P

The depth y1for the given flow is 0.165 m

Explanation of Solution

Given:

y3 = 0.3 m

h = 0.1 m

Concept Used:

Fr=VVcE=constant=E1=y1+V122gForuniformflow,q=y1V1=y2V22y1y2=18Fr221

Calculation:

q=y3V3=y2V2y2V2=0.515.....(3)y2=0.515V2Fromconservationofenergy,E2=E3=Ey2+V222g=0.55......(4)Solving(1)and(2),weget,0.051V22+0.515V2=0.5510.051V230.551V2+0.515=0Onsolvingthecubicequation,weget,V2=1.04m/sy2=0.515V2y2=0.5151.04y2=0.495mFr2=V2V2cFr2=1.04g y 21.049.81*0.495Fr2=0.4722y1y2=18Fr2212y10.495=18*0.47221y1=0.165m.

Conclusion:

The depth y1 for the given flow is 0.165 m.

To determine

iii.

The velocity V1 for the given flow.

Expert Solution
Check Mark

Answer to Problem 10.95P

The velocity V1 for the given flow is 3.12 m/s.

Explanation of Solution

Given:

y3 = 0.3 m

h = 0.1 m

Concept Used:

q=y1V1=y2V2

Calculation:

q=y1V1=y2V2V1=0.515y1V1=0.5150.165V1=3.12m/s

Conclusion:

The velocity V1 for the given flow is 3.12 m/s.

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Chapter 10 Solutions

Fluid Mechanics, 8 Ed

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