The maximum hydraulic efficiency of an impulse turbine is (where φ = Angle of blade tip at outlet)

Hydraulics and Fluid Mechanics in ME
The maximum hydraulic efficiency of an impulse turbine is (where φ = Angle of blade tip at outlet)

(1 + cos φ)/2

(1 - cos φ)/2

(1 + sin φ)/2

(1 - sin φ)/2

(1 + cos φ)/2

(1 - cos φ)/2

(1 + sin φ)/2

(1 - sin φ)/2

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Hydraulics and Fluid Mechanics in ME
Motion of a liquid in a volute casing of a centrifugal pump is an example of

Rotational flow

Forced spiral vortex flow

Radial

Spiral vortex flow

Rotational flow

Forced spiral vortex flow

Radial

Spiral vortex flow

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Hydraulics and Fluid Mechanics in ME
In an immersed body, center of pressure is

above the center of gravity

could be above or below e.g. depending on density of body and liquid

below be center of gravity

at the center of gravity

above the center of gravity

could be above or below e.g. depending on density of body and liquid

below be center of gravity

at the center of gravity

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Hydraulics and Fluid Mechanics in ME
Slip of a reciprocating pump is defined as the

Sum of actual discharge and the theoretical discharge

Product of theoretical discharge and the actual discharge

Difference of theoretical discharge and the actual discharge

Ratio of actual discharge to the theoretical discharge

Sum of actual discharge and the theoretical discharge

Product of theoretical discharge and the actual discharge

Difference of theoretical discharge and the actual discharge

Ratio of actual discharge to the theoretical discharge

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Hydraulics and Fluid Mechanics in ME
Coefficient of velocity is defined as the ratio of

Area of jet at vena contracta to the area of orifice

Actual velocity of jet at vena contracta to the theoretical velocity

None of these

Actual discharge through an orifice to the theoretical discharge

Area of jet at vena contracta to the area of orifice

Actual velocity of jet at vena contracta to the theoretical velocity

None of these

Actual discharge through an orifice to the theoretical discharge

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Hydraulics and Fluid Mechanics in ME
Rain drops are spherical because of

surface tension forces

air resistance

viscosity

atmospheric pressure

surface tension forces

air resistance

viscosity

atmospheric pressure

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Hydraulics and Fluid Mechanics in ME

Hydraulics and Fluid Mechanics in ME The maximum hydraulic efficiency of an impulse turbine is (where φ = Angle of blade tip at outlet)

Hydraulics and Fluid Mechanics in ME Motion of a liquid in a volute casing of a centrifugal pump is an example of

Hydraulics and Fluid Mechanics in ME In an immersed body, center of pressure is

Hydraulics and Fluid Mechanics in ME Slip of a reciprocating pump is defined as the

Hydraulics and Fluid Mechanics in ME Coefficient of velocity is defined as the ratio of

Hydraulics and Fluid Mechanics in ME Rain drops are spherical because of

Hydraulics and Fluid Mechanics in ME
The maximum hydraulic efficiency of an impulse turbine is (where φ = Angle of blade tip at outlet)

Hydraulics and Fluid Mechanics in ME
Motion of a liquid in a volute casing of a centrifugal pump is an example of

Hydraulics and Fluid Mechanics in ME
In an immersed body, center of pressure is

Hydraulics and Fluid Mechanics in ME
Slip of a reciprocating pump is defined as the

Hydraulics and Fluid Mechanics in ME
Coefficient of velocity is defined as the ratio of

Hydraulics and Fluid Mechanics in ME
Rain drops are spherical because of