i. The relationship in dimensionless form.

Question

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Answer 1

Question

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

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Answer 2

Question

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

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Answer 3

Question

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

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Answer 4

Question

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

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Answer 5

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

Answer 6

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

Answer 7

Chapter 5, Problem 5.73P

To determine

i.

The relationship in dimensionless form.

Answer 8

Expert Solution

Answer to Problem 5.73P

The Pi terms are f(n,ΩDv)=PD2ρv3

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Given:

Windmill parameter:

Diameter = 50 cm

Power developed = 2.7 kW

Speed of rotation = 4800 rpm

Concept Used:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−j

Calculation:

P=f(D,ρ,v,Ω,n)k=5j=3 (M,L,T)Number of ∏terms=k−jNumber of ∏terms=5−3Number of ∏terms=2

The dimensions of each variable are,

{P}={ML2T−3}{D}={L}{ρ}={ML−3}{v}={LT−1}{Ω}={T−1}{n}=1Now taking (D,ρ,v) as repeating variables ,we getf(n, ΩDv)=PD2ρv3

Conclusion:

The Pi terms are f(n,ΩDv)=PD2ρv3.

Answer 13

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

Answer 14

To determine

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer 15

Expert Solution

Answer to Problem 5.73P

The power developed is 5.989 kW

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=PD2ρv3=constantP1D12ρ1v13=P2D22ρ2v23P2=P1*D22ρ2v23D12ρ1v13The density of air at 2000 m altitude is 1.0067 kg/m3The density of air at sea level altitude is 1.2255 kg/m3P2=2700*52*1.0067* 123 0.52*1.2255* 403P2=5989 W⇒5.989 kW

Conclusion:

The power developed is 5.989 kW.

Answer 20

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

Answer 21

To determine

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer 22

Expert Solution

Answer to Problem 5.73P

The rotation rate is 144 rev/min

Answer 23

Expert Solution

Answer 24

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

Given:

Geometric parameter of the prototype:

Diameter = 5 m

Wind speed = 12 m/s

Altitude = 2000 m

Concept Used:

f(n,ΩDv)=PD2ρv3=constant

Calculation:

For geometric similarity n( number of blades) = constant

For Dynamic similarity:

( ΩDv)=constantΩ1D1v1=Ω2D2v2Ω2=Ω1D1v1*v2D2Ω2=4800*0.540*125Ω2=144 rev/min

Conclusion:

The rotation rate is 144 rev/min.

Answer 27

Ch. 5 - Prob. 5.1P Ch. 5 - A prototype automobile is designed for cold...Ch. 5 - P5.3 The transfer of energy by viscous dissipation...Ch. 5 - When tested in water at 20°C flowing at 2 m/s, an...Ch. 5 - P5.5 An automobile has a characteristic length and...Ch. 5 - P5.6 The disk-gap-band parachute in the...Ch. 5 - Prob. 5.7P Ch. 5 - Prob. 5.8P Ch. 5 - The Richardson number, Ri, which correlates the...Ch. 5 - Prob. 5.10P

i. The relationship in dimensionless form.

Concept explainers

Videos

i.

The relationship in dimensionless form.

Answer to Problem 5.73P

Explanation of Solution

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer to Problem 5.73P

Explanation of Solution

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer to Problem 5.73P

Explanation of Solution

Want to see more full solutions like this?

Chapter 5 Solutions

i. The relationship in dimensionless form.

Concept explainers

Videos

i. The relationship in dimensionless form.

Answer to Problem 5.73P

Explanation of Solution

ii. The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer to Problem 5.73P

Explanation of Solution

iii. The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.

Answer to Problem 5.73P

Explanation of Solution

Want to see more full solutions like this?

Chapter 5 Solutions

i.

The relationship in dimensionless form.

ii.

The power developed by a geometrical and dynamically similar prototype with a diameter of 5 m.

iii.

The rotation rate by a geometrical and dynamically similar prototype with a diameter of 5 m.