The difference of pressure between the inside and outside of a liquid drop is

Hydraulics & Fluid Mechanics
The difference of pressure between the inside and outside of a liquid drop is

(b)p = T/r

(d)p = 2T/r

(a)p = Txr

p = T/2r

(b)p = T/r

(d)p = 2T/r

(a)p = Txr

p = T/2r

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Hydraulics & Fluid Mechanics
To avoid vaporisation in the pipe line, the pipe line over the ridge is laid such that it is not more than

5.0 above the hydraulic gradient

10.0 m above the hydraulic gradient

6.4 m above the hydraulic gradient

2.4 m above the hydraulic gradient

5.0 above the hydraulic gradient

10.0 m above the hydraulic gradient

6.4 m above the hydraulic gradient

2.4 m above the hydraulic gradient

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Hydraulics & Fluid Mechanics
The distance from pipe boundary, at which the turbulent shear stress is one-third die wall shear stress, is (where R is the radius of pipe)

2/3 R

1/2 R

3/4 R

1/3 R

2/3 R

1/2 R

3/4 R

1/3 R

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Hydraulics & Fluid Mechanics
Two pipe systems are said to be equivalent when

head loss and discharge are same in two systems

length and diameter are same in two systems

friction factor and length are same in two systems

length of pipe and discharge are same in two systems

head loss and discharge are same in two systems

length and diameter are same in two systems

friction factor and length are same in two systems

length of pipe and discharge are same in two systems

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Hydraulics & Fluid Mechanics
THEE HORIZONTAL COMPONENT OF BUOYANT FORCE IS

ZERO

NEGLIGIBLE

None of these

SAME AS BUOYANT FORCE

ZERO

NEGLIGIBLE

None of these

SAME AS BUOYANT FORCE

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Hydraulics & Fluid Mechanics
The normal stress is same in all directions at a point in a fluid

only when the fluid is incompressible and has zero viscosity

irrespective of the motion of one fluid layer relative to an adjacent layer

When there is no motion of one fluid layer relative to an adjacent layer

only when the fluid is frictionless

only when the fluid is incompressible and has zero viscosity

irrespective of the motion of one fluid layer relative to an adjacent layer

When there is no motion of one fluid layer relative to an adjacent layer

only when the fluid is frictionless

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Hydraulics & Fluid Mechanics

Hydraulics & Fluid Mechanics The difference of pressure between the inside and outside of a liquid drop is

Hydraulics & Fluid Mechanics To avoid vaporisation in the pipe line, the pipe line over the ridge is laid such that it is not more than

Hydraulics & Fluid Mechanics The distance from pipe boundary, at which the turbulent shear stress is one-third die wall shear stress, is (where R is the radius of pipe)

Hydraulics & Fluid Mechanics Two pipe systems are said to be equivalent when

Hydraulics & Fluid Mechanics THEE HORIZONTAL COMPONENT OF BUOYANT FORCE IS

Hydraulics & Fluid Mechanics The normal stress is same in all directions at a point in a fluid

Hydraulics & Fluid Mechanics
The difference of pressure between the inside and outside of a liquid drop is

Hydraulics & Fluid Mechanics
To avoid vaporisation in the pipe line, the pipe line over the ridge is laid such that it is not more than

Hydraulics & Fluid Mechanics
The distance from pipe boundary, at which the turbulent shear stress is one-third die wall shear stress, is (where R is the radius of pipe)

Hydraulics & Fluid Mechanics
Two pipe systems are said to be equivalent when

Hydraulics & Fluid Mechanics
THEE HORIZONTAL COMPONENT OF BUOYANT FORCE IS

Hydraulics & Fluid Mechanics
The normal stress is same in all directions at a point in a fluid