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/Cr

Cc × Cr

Cc × Cv

Cv × Cr

Cc/Cr

Cc × Cr

Cc × Cv

Cv × Cr

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Hydraulics and Fluid Mechanics in ME
The cavitation in reaction turbines is avoided, to a great extent by

Installing the turbine below the tail race level

Using stainless steel runner of the turbine

All of these

Providing highly polished blades to the runner

Installing the turbine below the tail race level

Using stainless steel runner of the turbine

All of these

Providing highly polished blades to the runner

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Hydraulics and Fluid Mechanics in ME
The discharge through a large rectangular orifice is given by (where H1 = Height of the liquid above the top of the orifice, H2 = Height of the liquid above the bottom of the orifice, b = Breadth of the orifice, and Cd = Coefficient of discharge)

Q = (2/3) Cd × b × √(2g) × (H22 - H12)

Q = (2/3) Cd × b × √(2g) × (H2 - H1)

Q = (2/3) Cd × b × √(2g) × (H23/2 - H13/2)

Q = (2/3) Cd × b × √(2g) × (H21/2 - H11/2)

Q = (2/3) Cd × b × √(2g) × (H22 - H12)

Q = (2/3) Cd × b × √(2g) × (H2 - H1)

Q = (2/3) Cd × b × √(2g) × (H23/2 - H13/2)

Q = (2/3) Cd × b × √(2g) × (H21/2 - H11/2)

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Hydraulics and Fluid Mechanics in ME
The power produced by the reaction turbine is ________ to the head of water.

4th power

None of these

Directly proportional

Inversely proportional

4th power

None of these

Directly proportional

Inversely proportional

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Hydraulics and Fluid Mechanics in ME
Viscosity of water in comparison to mercury is

Higher

Higher/lower depending on temperature

Same

Lower

Higher

Higher/lower depending on temperature

Same

Lower

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Hydraulics and Fluid Mechanics in ME
The continuity equation is connected with

Compressibility of fluids

Steady/unsteady flow

Conservation of mass

Open channel/pipe flow

Compressibility of fluids

Steady/unsteady flow

Conservation of mass

Open channel/pipe flow

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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 The cavitation in reaction turbines is avoided, to a great extent by

Hydraulics and Fluid Mechanics in ME The discharge through a large rectangular orifice is given by (where H1 = Height of the liquid above the top of the orifice, H2 = Height of the liquid above the bottom of the orifice, b = Breadth of the orifice, and Cd = Coefficient of discharge)

Hydraulics and Fluid Mechanics in ME The power produced by the reaction turbine is ________ to the head of water.

Hydraulics and Fluid Mechanics in ME Viscosity of water in comparison to mercury is

Hydraulics and Fluid Mechanics in ME The continuity equation is connected with

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
The cavitation in reaction turbines is avoided, to a great extent by

Hydraulics and Fluid Mechanics in ME
The discharge through a large rectangular orifice is given by (where H1 = Height of the liquid above the top of the orifice, H2 = Height of the liquid above the bottom of the orifice, b = Breadth of the orifice, and Cd = Coefficient of discharge)

Hydraulics and Fluid Mechanics in ME
The power produced by the reaction turbine is ________ to the head of water.

Hydraulics and Fluid Mechanics in ME
Viscosity of water in comparison to mercury is

Hydraulics and Fluid Mechanics in ME
The continuity equation is connected with