For a sphere of radius 15 cm moving with a uniform velocity of 2 m/sec through a liquid of specific gravity 0.9 and dynamic viscosity 0.8 poise, the Reynolds number will be

Hydraulics & Fluid Mechanics
For a sphere of radius 15 cm moving with a uniform velocity of 2 m/sec through a liquid of specific gravity 0.9 and dynamic viscosity 0.8 poise, the Reynolds number will be

337.5

600

675

300

337.5

600

675

300

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Hydraulics & Fluid Mechanics
The horizontal component of force on a curved surface is equal to the

force on a vertical projection of the curved surface

product of pressure intensity at its centroid and area

force on the horizontal projection of the curved surface

weight of liquid vertically above the curved surface

force on a vertical projection of the curved surface

product of pressure intensity at its centroid and area

force on the horizontal projection of the curved surface

weight of liquid vertically above the curved surface

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Hydraulics & Fluid Mechanics
Mercury is often used in barometer because

it is the best liquid

both (B) and (C)

the height of barometer will be less

its vapour pressure is so low that it may be neglected

it is the best liquid

both (B) and (C)

the height of barometer will be less

its vapour pressure is so low that it may be neglected

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Hydraulics & Fluid Mechanics
The peoperty by virtue of which a liquid opposes relative motion between its different layers is called

viscosity

surface tension

osmosis

co-efficient of viscosity

viscosity

surface tension

osmosis

co-efficient of viscosity

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Hydraulics & Fluid Mechanics
According to Bernoulli’s equation for steady ideal fluid flow

velocity and pressure are inversely proportional

the energy is constant along a stream-line but may vary across streamlines

total energy is constant throughout

principle of conservation of mass holds

velocity and pressure are inversely proportional

the energy is constant along a stream-line but may vary across streamlines

total energy is constant throughout

principle of conservation of mass holds

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Hydraulics & Fluid Mechanics
The discharge over a broad crested weir is maximum when the depth of flow is (where H is the available head)

H/3

H/2

2 H/3

2 H/5

H/3

H/2

2 H/3

2 H/5

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Hydraulics & Fluid Mechanics

Hydraulics & Fluid Mechanics For a sphere of radius 15 cm moving with a uniform velocity of 2 m/sec through a liquid of specific gravity 0.9 and dynamic viscosity 0.8 poise, the Reynolds number will be

Hydraulics & Fluid Mechanics The horizontal component of force on a curved surface is equal to the

Hydraulics & Fluid Mechanics Mercury is often used in barometer because

Hydraulics & Fluid Mechanics The peoperty by virtue of which a liquid opposes relative motion between its different layers is called

Hydraulics & Fluid Mechanics According to Bernoulli’s equation for steady ideal fluid flow

Hydraulics & Fluid Mechanics The discharge over a broad crested weir is maximum when the depth of flow is (where H is the available head)

Hydraulics & Fluid Mechanics
For a sphere of radius 15 cm moving with a uniform velocity of 2 m/sec through a liquid of specific gravity 0.9 and dynamic viscosity 0.8 poise, the Reynolds number will be

Hydraulics & Fluid Mechanics
The horizontal component of force on a curved surface is equal to the

Hydraulics & Fluid Mechanics
Mercury is often used in barometer because

Hydraulics & Fluid Mechanics
The peoperty by virtue of which a liquid opposes relative motion between its different layers is called

Hydraulics & Fluid Mechanics
According to Bernoulli’s equation for steady ideal fluid flow

Hydraulics & Fluid Mechanics
The discharge over a broad crested weir is maximum when the depth of flow is (where H is the available head)