The pressure intensity in kN/m2 (or kPa) at any point in a liquid is (where w = Specific weight of liquid, and h = Depth of liquid from the surface)

Hydraulics and Fluid Mechanics in ME
The pressure intensity in kN/m2 (or kPa) at any point in a liquid is (where w = Specific weight of liquid, and h = Depth of liquid from the surface)

w/h

w

wh

h/w

w/h

w

wh

h/w

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Hydraulics and Fluid Mechanics in ME
Which of the following pump is preferred for flood control and irrigation applications?

Axial flow pump

Centrifugal pump

Mixed flow pump

Reciprocating pump

Axial flow pump

Centrifugal pump

Mixed flow pump

Reciprocating pump

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Hydraulics and Fluid Mechanics in ME
According to fan laws, at constant speed and capacity, the pressure and power vary

Inversely as square root of density

Directly as the air or gas density

As square of density

Inversely as density

Inversely as square root of density

Directly as the air or gas density

As square of density

Inversely as density

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Hydraulics and Fluid Mechanics in ME
The torque required to overcome viscous resistance of a collar bearing is (where R1 and R2 = External and internal radius of collar)

(μπ²N/60t) × (R₁² - R₂²)

(μπ²N/60t) × (R₁ - R₂)

μπ²N/60t) × (R₁³ - R₂³)

(μπ²N/60t) × (R₁⁴ - R₂⁴)

(μπ²N/60t) × (R₁² - R₂²)

(μπ²N/60t) × (R₁ - R₂)

μπ²N/60t) × (R₁³ - R₂³)

(μπ²N/60t) × (R₁⁴ - R₂⁴)

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Hydraulics and Fluid Mechanics in ME
A tank of uniform cross-sectional area (A) containing liquid upto height (H1) has an orifice of cross-sectional area (a) at its bottom. The time required to bring the liquid level from H1 to H2 will be

2A × √H₁/Cd × a × √(2g)

2A × √H₂/Cd × a × √(2g)

2A × (√H3/2 - √H3/2)/Cd × a × √(2g)

2A × (√H₁ - √H₂)/Cd × a × √(2g)

2A × √H₁/Cd × a × √(2g)

2A × √H₂/Cd × a × √(2g)

2A × (√H3/2 - √H3/2)/Cd × a × √(2g)

2A × (√H₁ - √H₂)/Cd × a × √(2g)

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Hydraulics and Fluid Mechanics in ME
When an internal mouthpiece is running free, the discharge through the mouthpiece is (where a = Area of mouthpiece, and H = Height of liquid above the mouthpiece)

0.707 a. √2gH

0.855 a. √2gH

√2gH

0.5 a. √2gH

0.707 a. √2gH

0.855 a. √2gH

√2gH

0.5 a. √2gH

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Hydraulics and Fluid Mechanics in ME

Hydraulics and Fluid Mechanics in ME The pressure intensity in kN/m2 (or kPa) at any point in a liquid is (where w = Specific weight of liquid, and h = Depth of liquid from the surface)

Hydraulics and Fluid Mechanics in ME Which of the following pump is preferred for flood control and irrigation applications?

Hydraulics and Fluid Mechanics in ME According to fan laws, at constant speed and capacity, the pressure and power vary

Hydraulics and Fluid Mechanics in ME The torque required to overcome viscous resistance of a collar bearing is (where R1 and R2 = External and internal radius of collar)

Hydraulics and Fluid Mechanics in ME A tank of uniform cross-sectional area (A) containing liquid upto height (H1) has an orifice of cross-sectional area (a) at its bottom. The time required to bring the liquid level from H1 to H2 will be

Hydraulics and Fluid Mechanics in ME When an internal mouthpiece is running free, the discharge through the mouthpiece is (where a = Area of mouthpiece, and H = Height of liquid above the mouthpiece)

Hydraulics and Fluid Mechanics in ME
The pressure intensity in kN/m2 (or kPa) at any point in a liquid is (where w = Specific weight of liquid, and h = Depth of liquid from the surface)

Hydraulics and Fluid Mechanics in ME
Which of the following pump is preferred for flood control and irrigation applications?

Hydraulics and Fluid Mechanics in ME
According to fan laws, at constant speed and capacity, the pressure and power vary

Hydraulics and Fluid Mechanics in ME
The torque required to overcome viscous resistance of a collar bearing is (where R1 and R2 = External and internal radius of collar)

Hydraulics and Fluid Mechanics in ME
A tank of uniform cross-sectional area (A) containing liquid upto height (H1) has an orifice of cross-sectional area (a) at its bottom. The time required to bring the liquid level from H1 to H2 will be

Hydraulics and Fluid Mechanics in ME
When an internal mouthpiece is running free, the discharge through the mouthpiece is (where a = Area of mouthpiece, and H = Height of liquid above the mouthpiece)