The total energy of a liquid particle in motion is equal to

Hydraulics and Fluid Mechanics in ME
The total energy of a liquid particle in motion is equal to

Kinetic energy - (pressure energy + potential energy)

Pressure energy + kinetic energy + potential energy

Potential energy - (pressure energy + kinetic energy

Pressure energy - (kinetic energy + potential energy)

Kinetic energy - (pressure energy + potential energy)

Pressure energy + kinetic energy + potential energy

Potential energy - (pressure energy + kinetic energy

Pressure energy - (kinetic energy + potential energy)

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Hydraulics and Fluid Mechanics in ME
The discharge through an external mouthpiece is given by (where a = Cross-sectional area of the mouthpiece, and H = Height of liquid above the mouthpiece)

5.85 aH.√(2g)

0.855 a.√(2gH)

1.585 a.√(2gH)

1.855 aH.√(2g)

5.85 aH.√(2g)

0.855 a.√(2gH)

1.585 a.√(2gH)

1.855 aH.√(2g)

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Hydraulics and Fluid Mechanics in ME
Axial flow pump is started with its delivery valve

Kept 50% open

Kept fully closed

Kept fully open

Irrespective of any position

Kept 50% open

Kept fully closed

Kept fully open

Irrespective of any position

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Hydraulics and Fluid Mechanics in ME
Resultant pressure of the liquid in the case of an immersed body acts through

Centre of gravity

Centre of buoyancy

Metacentre

Centre of pressure

Centre of gravity

Centre of buoyancy

Metacentre

Centre of pressure

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Hydraulics and Fluid Mechanics in ME
Buoyant force is

The resultant force on a body due to the fluid surrounding it

The force necessary to maintain equilibrium of a submerged body

Equal to the volume of liquid displaced

The resultant force acting on a floating body

The resultant force on a body due to the fluid surrounding it

The force necessary to maintain equilibrium of a submerged body

Equal to the volume of liquid displaced

The resultant force acting on a floating body

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Hydraulics and Fluid Mechanics in ME
Specific speed for reaction turbines ranges from

80 to 200

0 to 4.5

250 to 300

10 to 100

80 to 200

0 to 4.5

250 to 300

10 to 100

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Hydraulics and Fluid Mechanics in ME

Hydraulics and Fluid Mechanics in ME The total energy of a liquid particle in motion is equal to

Hydraulics and Fluid Mechanics in ME The discharge through an external mouthpiece is given by (where a = Cross-sectional area of the mouthpiece, and H = Height of liquid above the mouthpiece)

Hydraulics and Fluid Mechanics in ME Axial flow pump is started with its delivery valve

Hydraulics and Fluid Mechanics in ME Resultant pressure of the liquid in the case of an immersed body acts through

Hydraulics and Fluid Mechanics in ME Buoyant force is

Hydraulics and Fluid Mechanics in ME Specific speed for reaction turbines ranges from

Hydraulics and Fluid Mechanics in ME
The total energy of a liquid particle in motion is equal to

Hydraulics and Fluid Mechanics in ME
The discharge through an external mouthpiece is given by (where a = Cross-sectional area of the mouthpiece, and H = Height of liquid above the mouthpiece)

Hydraulics and Fluid Mechanics in ME
Axial flow pump is started with its delivery valve

Hydraulics and Fluid Mechanics in ME
Resultant pressure of the liquid in the case of an immersed body acts through

Hydraulics and Fluid Mechanics in ME
Buoyant force is

Hydraulics and Fluid Mechanics in ME
Specific speed for reaction turbines ranges from