Coefficient of discharge Cd is equal to (where Cc = Coefficient of contraction, Cv = Coefficient of velocity, and Cr = Coefficient of resistance)

Hydraulics and Fluid Mechanics in ME
Coefficient of discharge Cd is equal to (where Cc = Coefficient of contraction, Cv = Coefficient of velocity, and Cr = Coefficient of resistance)

Cc × Cv

Cc × Cr

Cc/Cr

Cv × Cr

Cc × Cv

Cc × Cr

Cc/Cr

Cv × Cr

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Hydraulics and Fluid Mechanics in ME
In case of flow through parallel pipes,

The head loss for all the pipes is same

The total discharge is equal to the sum of discharges in the various pipes

Both (A) and (B)

The total head loss is the sum of head losses in the various pipes

The head loss for all the pipes is same

The total discharge is equal to the sum of discharges in the various pipes

Both (A) and (B)

The total head loss is the sum of head losses in the various pipes

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Hydraulics and Fluid Mechanics in ME
General energy equation holds for

laminar flow

steady flow

turbulent flow

non-uniform flow

laminar flow

steady flow

turbulent flow

non-uniform flow

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

Potential energy - (pressure energy + kinetic energy

Kinetic energy - (pressure energy + potential energy)

Pressure energy - (kinetic energy + potential energy)

Pressure energy + kinetic energy + potential energy

Potential energy - (pressure energy + kinetic energy

Kinetic energy - (pressure energy + potential energy)

Pressure energy - (kinetic energy + potential energy)

Pressure energy + kinetic energy + potential energy

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Hydraulics and Fluid Mechanics in ME
The flow rate in gear pump

Decreases with increase in pressure

More or less remains constant with increase in pressure

Unpredictable

Increases with increase in pressure

Decreases with increase in pressure

More or less remains constant with increase in pressure

Unpredictable

Increases with increase in pressure

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Hydraulics and Fluid Mechanics in ME
The speed of an imaginary turbine, identical with the given turbine, which will develop a unit power under a unit head, is known as

Normal speed

None of these

Unit speed

Specific speed

Normal speed

None of these

Unit speed

Specific speed

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Hydraulics and Fluid Mechanics in ME

Hydraulics and Fluid Mechanics in ME Coefficient of discharge Cd is equal to (where Cc = Coefficient of contraction, Cv = Coefficient of velocity, and Cr = Coefficient of resistance)

Hydraulics and Fluid Mechanics in ME In case of flow through parallel pipes,

Hydraulics and Fluid Mechanics in ME General energy equation holds for

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 flow rate in gear pump

Hydraulics and Fluid Mechanics in ME The speed of an imaginary turbine, identical with the given turbine, which will develop a unit power under a unit head, is known as

Hydraulics and Fluid Mechanics in ME
Coefficient of discharge Cd is equal to (where Cc = Coefficient of contraction, Cv = Coefficient of velocity, and Cr = Coefficient of resistance)

Hydraulics and Fluid Mechanics in ME
In case of flow through parallel pipes,

Hydraulics and Fluid Mechanics in ME
General energy equation holds for

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 flow rate in gear pump

Hydraulics and Fluid Mechanics in ME
The speed of an imaginary turbine, identical with the given turbine, which will develop a unit power under a unit head, is known as