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

675

600

300

337.5

675

600

300

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Hydraulics & Fluid Mechanics
For laminar flow in a pipe of circular cross-section, the Darcy’s friction factor f is

directly proportional to Reynolds number and independent of pipe wall roughness

inversely proportional to Reynolds number and directly proportional to pipe wall roughness

inversely proportional to Reynolds number and indpendent of pipe wall roughness

directly proportional to pipe wall roughness and independent of Reynolds number

directly proportional to Reynolds number and independent of pipe wall roughness

inversely proportional to Reynolds number and directly proportional to pipe wall roughness

inversely proportional to Reynolds number and indpendent of pipe wall roughness

directly proportional to pipe wall roughness and independent of Reynolds number

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Hydraulics & Fluid Mechanics
For a floating body to be in stable equilibrium, its metacentre should be

below the center of buoyancy

between e.g. and center of pressure

above the center of gravity.

above the center of buoyancy

below the center of buoyancy

between e.g. and center of pressure

above the center of gravity.

above the center of buoyancy

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Hydraulics & Fluid Mechanics
When a body floating in a liquid, is displaced slightly, it oscillates about

metacentre

e.g. of body

center of buoyancy

center of pressure

metacentre

e.g. of body

center of buoyancy

center of pressure

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Hydraulics & Fluid Mechanics
A model of torpedo is tested in a towing tank at a velocity of 25 m/sec. The prototype is expected to attain a velocity of 5 m/sec. What model scale has been used ?

1:50

1 : 5

1 : 2.5

1 :25

1:50

1 : 5

1 : 2.5

1 :25

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Hydraulics & Fluid Mechanics
The line of action of the buoyant force acts through the centroid of the

submerged body

volume of the floating body

displaced volume of the fluid

volume of the fluid vertically above the body

submerged body

volume of the floating body

displaced volume of the fluid

volume of the fluid vertically above the body

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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 For laminar flow in a pipe of circular cross-section, the Darcy’s friction factor f is

Hydraulics & Fluid Mechanics For a floating body to be in stable equilibrium, its metacentre should be

Hydraulics & Fluid Mechanics When a body floating in a liquid, is displaced slightly, it oscillates about

Hydraulics & Fluid Mechanics A model of torpedo is tested in a towing tank at a velocity of 25 m/sec. The prototype is expected to attain a velocity of 5 m/sec. What model scale has been used ?

Hydraulics & Fluid Mechanics The line of action of the buoyant force acts through the centroid of the

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
For laminar flow in a pipe of circular cross-section, the Darcy’s friction factor f is

Hydraulics & Fluid Mechanics
For a floating body to be in stable equilibrium, its metacentre should be

Hydraulics & Fluid Mechanics
When a body floating in a liquid, is displaced slightly, it oscillates about

Hydraulics & Fluid Mechanics
A model of torpedo is tested in a towing tank at a velocity of 25 m/sec. The prototype is expected to attain a velocity of 5 m/sec. What model scale has been used ?

Hydraulics & Fluid Mechanics
The line of action of the buoyant force acts through the centroid of the