Fluid Mechanics Part 2

Question 1

In Newton’s law range, the drag co-efficient for the motion of spherical particle in a stationary fluid is
0.44
0.044
4.4
44

Answer 1

0.44

Question 2

A pressure of 10 m head of water is equivalent to __________ kN/m2.
98
147
196
49

Answer 2

98

Question 3

A pressure head of 320 metres of water in meters of CCl4 (sp.gr = 1.6) will be
100
200
320
160

Answer 3

200

P1=P2
ρgh1=ρgh2
1x9.8x320=1.6x9.8xh2
h2=320/1.6=200

Question 4

The ratio of the wall drag to the form drag in the Stoke’s law range (for motion of spherical particles in a stationary fluid) is
0.5
1
2
0.33

Answer 4

2

Question 5

For turbulent flow in smooth circular pipe, the velocity distribution is a function of the distance ‘d’ measured from the wall of the pipe and the friction velocity ‘v’, and it follows a __________ relationship.
logarithmic
linear
hyperbolic
parabolic

Answer 5

logarithmic

Question 6

Maintenance cost of a __________ pump for a particular duty is the least.
centrifugal
reciprocating
volute
gear

Answer 6

centrifugal

Remember: centrifugal maintenance lowest

Question 7

Choking in case of pipe flow means that a
specified mass flow rate can not be achieved.
valve is closed in the line.
restriction in flow cross-section area occurs.
none of these.

Answer 7

specified mass flow rate can not be achieved.

Question 8

Velocity of liquid hydrocarbon fuels in a pipeline can not be measured by magnetic flowmeters, because their __________ is very low/small.
thermal conductivity
electrical conductivity
specific gravity
electrical resistivity

Answer 8

electrical conductivity

Question 9

The nominal size of a hose pipe is specified by its
I.D.
O.D.
thickness
none of these

Answer 9

I.D.

Remember: nominal hose ID

Question 10

Transition from laminar flow to turbulent flow is aided by the
surface roughness and curvature (i.e.sharp corners).
vibration.
pressure gradient and the compressibility of the flowing medium.
all of these.

Answer 10

all of these.

Question 11

For flow of fluids through packed bed, the superficial velocity is
less than the average velocity through channels.
more than the average velocity through channels.
dependent on the pressure drop across the bed.
same as the average velocity through channels.

Answer 11

less than the average velocity through channels.

Question 12

Cd is always __________ Cc.
greater than
less than
equal to
either more or less than

Answer 12

greater than

Question 13

Buoyant force
for non-symmetrical bodies is not vertical.
depends on the depth of the submergence of the floating body.
depends on the weight of the floating body.
none of these.

Answer 13

depends on the weight of the floating body.

Question 14

Which of the following is an undesirable property of a manometric liquid ?
Non-sticky & non-corrosive nature.
High vapour pressure.
Low viscosity & surface tension.
Low co-efficient of thermal expansion.

Answer 14

High vapour pressure.

Question 15

Characteristic curves for a centrifugal pump plotted against its capacity is shown in the diagram. x, y and z denote respectively (1)
efficiency, head and B.H.P.
head, efficiency and B.H.P.
B.H.P., efficiency and head
efficiency, B.H.P. and head

Answer 15

head, efficiency and B.H.P.

Question 16

Liquid delivery by centrifugal pump starts, only when the head developed by it is equal to the __________ head.
manometric
total
static
friction

Answer 16

manometric

Question 17

The speed of sound in an ideal gas varies as the
temperature
pressure
density
none of these

Answer 17

temperature

Question 18

The maximum head that can be developed by a single impeller is __________ ft.
25
100
250-300
1000

Answer 18

250-300

Question 19

The ratio of hydrodynamic boundary layer to thermal boundary layer thickness in case of liquid metals is
< 1
1
> 1
2

Answer 19

< 1

Question 20

The general relationship between speed N, head H, power P and discharge Q for a centrifugal pump is
Q ∝ N : H ∝ N^2 : P ∝ N^3
Q ∝ N^2 : H ∝ N^3 : P ∝ N
Q ∝ N : H ∝ N^3 : P ∝ N2
Q ∝ N^3 : H ∝ N : P ∝ N^2

Answer 20

Q ∝ N : H ∝ N^2 : P ∝ N^3

Question 21

What is the ratio of the velocity at the axis of the pipe to the mean velocity of flow in case of pipe flow under viscous condition ?
0.5
0.67
1
2

Answer 21

2

Question 22

Foot valve provided in the pump is a __________ valve.
direction control
back pressure
relief
pressure reduction

Answer 22

back pressure

Question 23

The discharge co-efficient for an orificemeter does not depend upon the
pipe length.
ratio of pipe diameter to orifice diameter.
type of orifice & the Reynolds number.
pipe diameter.

Answer 23

pipe length.

Question 24

Which of the following options will facilitate the achievement of a very high head (say 30 metres) in case of a centrifugal pump?
Increasing the impeller speed and the volute area.
Increasing the number of vanes in the impeller.
Mounting of two or more impellers in series on a single shaft.
Either of (a), (b) or (c).

Answer 24

Mounting of two or more impellers in series on a single shaft.

Question 25

An equipotential line is __________ to the velocity vector at every point.
normal
abnormal
tangential
none of these

Answer 25

normal

Question 26

Path followed by water jet issuing from the bottom of a water tank will be a
parabola (vertex being at the opening).
hyperbola.
horizontal straight line.
zig-zag path (which is geometrically undefined).

Answer 26

parabola (vertex being at the opening).

Question 27

Which of the following produces maximum pressure difference for transportation of gases ?
Vaccum pumps
Blowers
Fans
Compressors

Answer 27

Compressors

Question 28

For flow through a venturi at a particular discharge, the correct relationships among velocities at point X, Y and Z would be (1)
V1 < V2 < V3
V2 > V1 and V2 > V3
V1 > V2 > V3
none of these.

Answer 28

V2 > V1 and V2 > V3

Question 29

Drag co-efficient in hindered settling is __________ that in free settling.
less than
equal to
not necessarily greater than
always greater than

Answer 29

always greater than

Question 30

Efficiency of power transmission (n) through a circular pipe is given by (ht - hf)/ht, which has a maximum value of __________ percent.
1.3770833333333332
50
66.6
88.8

Answer 30

66.6

Question 31

One dimensional fluid flow implies the
flow in straight lines only.
uniform flow.
steady uniform flow.
flow in which transverse components are zero.

Answer 31

flow in which transverse components are zero.

Question 32

__________ forces act on a particle moving through a stationary fluid.
Gravity
Drag
Buoyant
all of these

Answer 32

all of these

Question 33

In frictional fluid flow, the quantity, P/ρ + V²/2gc + gc/gz , is
constant along a streamline.
not constant along a streamline.
increased in the direction of flow.
none of these.

Answer 33

not constant along a streamline.

Question 34

Hydraulic radius is the ratio of
wetted perimeter to flow area.
flow area to wetted perimeter.
flow area to square of wetted perimeter.
square root of flow area to wetted perimeter.

Answer 34

flow area to wetted perimeter.

Question 35

The unit of bulk modulus of elasticity for a liquid in S.I. unit is
N
N/m
N/m^2
N/m^3

Answer 35

N/m^2

Question 36

Power requirement of fans having constant wheel diameter varies __________ fan speed.
as square of
directly as
as cube of
none of these

Answer 36

as cube of

Question 37

In the low Reynolds number region, the drag force on a sphere is proportional to
V
V^2
V^4
V^0.5

Answer 37

V

Question 38

The continuity equation
is independent of the compressibility of the fluid.
is dependent upon the viscosity of the fluid.
represents the conservation of mass.
none of these.

Answer 38

represents the conservation of mass.

Question 39

Experimental study of laminar fluid flow through a circular tube was conducted by
Reynolds
Hagen and Poiseuille
Pascal
Blake-Plummer

Answer 39

Hagen and Poiseuille

Question 40

The most economical flow control valve for use with large diameter pipes is a
butterfly valve
globe valve
needle valve
none of these

Answer 40

butterfly valve

Question 41

Each term in Bernaulli’s equation represents the __________ of the fluid.
energy per unit mass
energy per unit weight
force per unit mass
none of these

Answer 41

energy per unit weight

Question 42

Which of the following is a dimensionless parameter ?
Angular velocity
Specific weight
Kinematic viscosity
None of these

Answer 42

None of these

Question 43

If the head over the triangular notch is doubled, the discharge will increase by __________ times.
2
2.828
5.657
4

Answer 43

5.657

Question 44

Friction factor for a hydraulically smooth pipe at NRe = 2100 is f1. If the pipe is further smoothened (i.e., roughness is reduced), the friction factor at the same value of NRe, will
increase.
decrease.
remain unchanged.
increase or decrease depending on the pipe material.

Answer 44

increase.

Question 45

For the laminar flow of a fluid in a circular pipe of radius R, the Hagen-Poisseule equation predicts the volumetric flow rate to be proportional to
R
R^2
R^4
R^0.5

Answer 45

R^4

Question 46

Interstage coolers are provided in a multistage compressor to
save power in compressing a given volume to a given pressure.
cool the delivered air.
achieve the exact delivery pressure.
none of these.

Answer 46

save power in compressing a given volume to a given pressure.

Question 47

Consider a centrifugal pump having a specific impeller diameter, fixed impeller speed pumping a liquid of constant density at a particular discharge capacity. With decrease in the capacity of the pump, the __________ decreases.
NPSH required.
BHP required by the pump.
head of the liquid pumped.
all of these

Answer 47

all of these

Question 48

Reynolds number is the ratio of
viscous forces to gravity forces.
inertial forces to viscous forces.
viscous forces to inertial forces.
inertial forces to gravity forces.

Answer 48

inertial forces to viscous forces.

ME Mach - inertial to Elastic
WS Weber - inertial to Surface tension
FG Froude - inertial to Gravitational
RV Reynold - inertial to Viscous
EP Euler - Pressure to inertial

Question 49

For the manometer set up shown in the figure, https://www.indiabix.com/_files/images/chemical-engineering/fluid-mechanics/60-786-1.png, the pressure difference PA - PB is given by
(ρH - ρair)gH
(ρH - ρL)gH
(ρH -ρL) gH + (ρL - ρair) . g(L - H)
(ρH - ρL) gL + (ρL - ρair) gH

Answer 49

(ρH - ρair)gH

Question 50

The discharge through a venturimeter depends upon
pressure drop only.
its orientation.
co-efficient of contraction only.
none of these.

Answer 50

pressure drop only.

Question 51

N. second/m^2 is
the S.I. unit of dynamic viscosity.
the S.I. unit of kinematic viscosity.
equivalent to one poise.
equivalent to one stoke.

Answer 51

the S.I. unit of dynamic viscosity.

Question 52

The distance between metacentre and __________ is called metacentric height.
water surface
centre of gravity
centre of buoyancy
none of these

Answer 52

centre of gravity

Question 53

Check valve is used for __________ flow.
very precise control of
unidirectional
multidirectional
none of these

Answer 53

unidirectional

Question 54

Capacity of a rotary gear pump can be varied by
changing the speed of rotation.
bleeding air into suction.
bypassing liquid from the suction or discharge line.
all (a), (6) and (c).

Answer 54

all (a), (6) and (c).

Question 55

For a given Reynolds number, in a hydraulically smooth pipe, further smoothening __________ the friction factor.
brings about no further reduction of
increases
decreases
none of these

Answer 55

brings about no further reduction of

Question 56

Power number is the ratio of
drag stress to inertial stress.
inertial stress to drag stress.
inertial stress to gravitational stress.
gravitational stress to drag stress.

Answer 56

drag stress to inertial stress.

Question 57

The momentum correction factor for the velocity distribution of laminar flow is
1.3
1.66
2.5
none of these

Answer 57

none of these

Question 58

For the same flow rate of a fluid, the pressure drop is the least for
venturimeter
orificemeter
flow-nozzle
delta-p is same for all

Answer 58

venturimeter

Question 59

The valve commonly used in pipes larger than 2” dia is a
globe valve
plug-cock
gate valve
check valve

Answer 59

gate valve

Question 60

Foot valves are provided in the suction line of a centrifugal pump to
avoid priming, every time we start the pump.
remove the contaminant present in the liquid.
minimise the fluctuation in discharge.
control the liquid discharge.

Answer 60

avoid priming, every time we start the pump.

Question 61

An ideal fluid is
frictionless & incompressible.
one, which obeys Newton’s law of viscosity.
highly viscous.
none of these.

Answer 61

frictionless & incompressible.

Question 62

In area meter (e.g., rotameter), with increase in the fluid flow rate, the
pressure drop increases linearly.
pressure drop is almost constant.
area through which fluid flows does not vary.
none of these.

Answer 62

pressure drop is almost constant.

Question 63

In power law, ζ = A (du/dy)² + B, then the fluid is
Newtonian
dilatant
thixotropic
rheopectic

Answer 63

Newtonian

Question 64

The buoyant force acting on a floating body is dependent on the
viscosity of the liquid.
weight of the liquid displaced.
depth of immersion of the body.
surface tension of the liquid.

Answer 64

weight of the liquid displaced.

Question 65

A Newtonion fluid is that
which follows Newton’s law of motion.
which needs a minimum shear, before it starts deforming.
for which shear & deformation are related as τ = μ (∂u/∂γ)
none of these.

Answer 65

for which shear & deformation are related as τ = μ (∂u/∂γ)

Question 66

In case of end to end connection of two or more pipes in series, the __________ each pipe.
same rate of flow passes through
head loss is same through
rate of flow in each pipe is proportional to the length of
total flow rate is the sum of flow rate in

Answer 66

same rate of flow passes through

Question 67

Which of the following equations applies to the fluid flow through a packed bed for very large Reynolds number ?
Fanning equation
Blake-Pllummer equation
Hagen-Poiseulle equation
Kozney-Karman equation

Answer 67

Blake-Pllummer equation

Question 68

The flow of gas along a pipe in the direction of decreasing pressure causes decrease in its
viscosity
specific volume
velocity
none of these

Answer 68

specific volume

Question 69

Centrifugal pump can’t be used to pump
molten sodium (used as a coolant in Fast Breeder Reactor).
moderately viscous vegetable oil used in soap industry.
thick molten soap at 80 C.
none of the above.

Answer 69

thick molten soap at 80 C.

Question 70

A stream line is
fixed in space in steady flow.
always the path of particle.
drawn normal to the velocity vector at every point.
a line connecting the mid points of flow cross-section.

Answer 70

fixed in space in steady flow.

Question 71

Quicksand is an example of a __________ fluid.
bingham plastic
dilatent
Newtonion
pseudoplastic

Answer 71

dilatent

Question 72

Correction for capillary effect in manometers (used for pressure measurement) need not be applied, if diameter of the manometer tube is __________ mm.
< 4
> 4
> 12.5
< 10

Answer 72

> 12.5

Question 73

Differential manometer measures the
absolute pressure
gauge pressure
pressure difference
pressure gradient

Answer 73

pressure difference

Question 74

The pressure and power requirement of a gas fan at constant speed & capacity varies __________ the gas density.
directly as
inversely as square root of
inversely as
as square of

Answer 74

directly as

Question 75

Boundary layer thickness in laminar flow over a flat plate increases as(where, d = distance from the leading edge.)
√d
d^1/3
d^2
d^2/3

Answer 75

√d

Question 76

Gradually varied flow in open channel is a/an __________ flow.
steady uniform
steady non-uniform
unsteady uniform
unsteady non-uniform

Answer 76

steady non-uniform

Question 77

The line of action of the buoyant force acts through the
centroid of the displaced volume of fluid.
centre of gravity of a submerged body.
centroid of the volume of any floating body.
none of these.

Answer 77

centroid of the displaced volume of fluid.

Question 78

Cavitation in a centrifugal pump can be avoided by keeping the
inlet pressure high
outlet pressure low
inlet pressure low
outlet pressure high

Answer 78

inlet pressure high

Question 79

Vane anemometer
is an area meter.
is a variable head meter.
rotates an element at a speed determined by the velocity of the fluid in which the meter is immersed.
none of these.

Answer 79

rotates an element at a speed determined by the velocity of the fluid in which the meter is immersed.

Question 80

The peripherial velocity at inlet of a centrifugal pump having inlet diameter of 25 cms and rotating at 950 rpm is __________ m/sec.
1.8
12.4
186.2
736.4

Answer 80

12.4

Question 81

Laminar flow is characterised by the nonexistence of
pressure fluctuation.
eddies.
deviating velocities.
all (a), (b)&(c).

Answer 81

all (a), (b)&(c).

Question 82

The length of the tube necessary for the boundary layer to reach the centre of the tube and for fully developed flow to be established is called the __________ length.
equivalent
transition
Prandtl mixing
none of these

Answer 82

transition

Question 83

Select the correct practical example of steady non-uniform flow.
Motion of water around a ship in a lake.
Motion of river around bridge piers.
Steadily decreasing flow through a reducing section.
Steadily increasing flow through a pipe.

Answer 83

Steadily decreasing flow through a reducing section.

Question 84

Hydraulic diameter for non-circular ducts is equal to __________ times the area of flow divided by the perimeter.
two
three
four
eight

Answer 84

four

Question 85

Terminal velocity is
a constant velocity with no acceleration.
a fluctuating velocity.
attained after moving one-half of total distance.
none of these.

Answer 85

a constant velocity with no acceleration.

Question 86

Consider two pipes of same length and diameter through which water is passed at the same velocity. The friction factor for rough pipe is f1 and that for smooth pipe is f2. Pick out the correct statement.
f1 = f2
f1 < f2
f1 > f2
data not sufficient to relate f1 & f2

Answer 86

f1 > f2

Question 87

For an incompressible fluid, the bulk modulus of elasticity is
5 kg/m³
∞ N/m²
1 N
0 N/m

Answer 87

∞ N/m²

Question 88

A fluid is a substance, that
has to be kept in a closed container.
is almost incompressible.
has zero shear stress.
flows when even a small shear is applied to it.

Answer 88

flows when even a small shear is applied to it.

Question 89

The pressure intensity is the same in all directions at a point in a fluid
only when the fluid is frictionless.
only when the fluid is at rest having zero velocity.
when there is no motion of one fluid layer relative to an adjacent layer.
regardless of the motion of one fluid layer relative to an adjacent layer.

Answer 89

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

Question 90

Which of the following must be followed by the flow of a fluid (real or ideal)? (I) Newton’s law of viscosity. (II) Newton’s second law of motion. (III) The continuity equation. (IV) Velocity of boundary layer must be zero relative to boundary. (V) Fluid cannot penetrate a boundary.
I, II, III
II, III, V
I, II, V
II, IV, V

Answer 90

II, III, V

Question 91

Mach number is defined as the ratio of the local flow velocity to the sonic velocity in the fluid. For what value of Mach number, the gases are considered incompressible ?
< 0.3
> 3
50
1

Answer 91

< 0.3

Question 92

Boundary layer exists in flow
of real fluids.
over flat surfaces only.
in pipes only.
of ideal fluids only.

Answer 92

of real fluids.

Question 93

Rubber latex is an example of __________ fluid.
dilatent
Newtonion
pseudoplastic
Bingham plastic

Answer 93

pseudoplastic

Question 94

The frictional resistance in laminar flow does not depend on the
area of surface in contact.
flow velocity.
fluid temperature.
pressure of flow.

Answer 94

area of surface in contact.

Question 95

A venturimeter measures the
velocity head
pressure
point velocity
none of these

Answer 95

none of these

Question 96

Gradually varying fluid flow is an example of __________ flow.
non-steady uniform
non-steady non-uniform
steady uniform
steady non-uniform

Answer 96

non-steady uniform

Question 97

Drag is the force component exerted on an immersed object,
passing the centroid of the body at 60 to the direction of motion.
the component being parallel to theflow direction.
the component being normal to the flow direction.
none of these.

Answer 97

the component being parallel to theflow direction.

Question 98

To handle smaller quantity of fluid at higher discharge pressure, use a __________ pump.
reciprocating
centrifugal
volute
rotary vacuum

Answer 98

reciprocating

Question 99

Cocks are used to control
water
any liquid
solids
none of these

Answer 99

any liquid

Question 100

The dimension of surface tension is
ML^-2
MT^-2
MLT^-2
ML^-2T

Answer 100

MT^-2

Question 101

Pick out the correct statement.
Fanning friction factor is inversely proportional to Reynolds number always.
The property of a randomly packed bed (with raschig rings) is given by the ratio of the total volume to the volume of voids in the bed.
Mach number in an incompressible fluid is always unity.
Mach number is given by the ratio of the speed of the fluid to that of sound in the fluid under conditions of flow.

Answer 101

Mach number is given by the ratio of the speed of the fluid to that of sound in the fluid under conditions of flow.

Question 102

The friction factor is
always inversely proportional to the Reynolds number.
not dimensionless.
not dependent on the roughness of the pipe.
none of these.

Answer 102

none of these.

Question 103

Rubber latex is an example of a __________ .fluid.
pseudoplastic
bingham plastic
dilatent
Newtonion

Answer 103

pseudoplastic

Question 104

Which of the following factors does not contribute to the pressure drop in a pipeline ?
Velocity of fluid
Size of pipe
Length of pipe and number of bends
None of these

Answer 104

None of these

Question 105

The phenomenon occuring during pumping of a liquid solution containing dissolved gases, which may come out of the solution giving rise to gas pockets, is termed as
evaporation
cavitation
sublimation
stripping

Answer 105

cavitation

Question 106

Working of a __________ pump characterises mixed flow.
turbine
piston
diaphragm
none of these

Answer 106

turbine

Question 107

The rate of change of moment of momentum represents the __________ by the fluid.
torque applied
force exerted
work done
power developed

Answer 107

torque applied

Question 108

Cd for the orifice plate varies from
0.58 to 0.8
0.93 to 0.98
0.2 to 0.3
0.02 to 0.03

Answer 108

0.58 to 0.8

Question 109

The discharge through a V-notch weir varies as
H^3/2
H^1/2
H^5/2
H^2/3

Answer 109

H^5/2

Question 110

Water flow rate in a pipe of 3.5 metres diameter can be most economically and conveniently measured by a/an
pitot tube
venturimeter
orificemeter
rotameter

Answer 110

pitot tube

Question 111

The specific speed of a pump is defined as the speed of a unit of such a size, that it
delivers unit discharge at unit head.
requires unit power for unit head.
delivers unit discharge at unit power.
none of these.

Answer 111

delivers unit discharge at unit head.

Question 112

In case of venturimeters, friction losses are about __________ percent of maximum velocity head.
2
8
12
20

Answer 112

2

Question 113

With increase in the schedule number of a pipe of a particular nominal size, the
wall thickness also increases.
I.D. of the pipe decreases.
O.D. of the pipe remains constant.
all of these

Answer 113

all of these

Question 114

Turbine impeller
produces only radial current.
produces only tangential current.
is effective over wide range of viscosities.
does not produce tangential current.

Answer 114

is effective over wide range of viscosities.

Question 115

Friction produced by the formation of wakes is called the __________ friction.
disk
skin
form
none of these

Answer 115

form

wakes form friction

Question 116

Various efficiencies of a centrifugal pump are related as (where, nm = mechanical efficiency nv = volumetric efficiency. nma = manometric efficiency no = overall efficiency)
nma x nm x nv = no
nm = nv . nma
nma = nm x nv
nv = nm x nma

Answer 116

nm = nv . nma

Question 117

When the pipe Reynold’s number is 6000, the flow is generally
viscous
laminar
turbulent
transition

Answer 117

turbulent

Question 118

With a constant diameter impeller of a centrifugal pump
its capacity varies directly as the square of speed.
head varies as the square of speed.
horsepower input varies as the square of speed.
head varies as the speed.

Answer 118

head varies as the square of speed.

Question 119

For water, when the pressure increases, the viscosity
also increases
decreases
remains constant
first decreases, and then increases

Answer 119

first decreases, and then increases

Question 120

Location of vena-contracta in an orificemeter does not depend upon the
type of orifice.
density, viscosity & compressibility of the fluid.
ratio of pipe diameter to orifice diameter.
pipe roughness.

Answer 120

type of orifice.

Question 121

At low Reynolds number
viscous forces are unimportant.
viscous forces control.
viscous forces control and inertial forces are unimportant.
gravity forces control.

Answer 121

viscous forces control and inertial forces are unimportant.

Question 122

For laminar flow through a closed conduit
Vmax = 2Vav
Vmax = Vav
Vmax = 1.5Vav
Vmax = 0.5Vav

Answer 122

Vmax = 2Vav

Question 123

In Newton’s law range, the terminal velocity of a solid spherical particle falling through a stationary fluid mass varies as the __________ of its diameter.
inverse
square root
second power
first power

Answer 123

square root

Question 124

Unsteady uniform flow is represented by flow through a/an
long pipe at constant rate.
long pipe at decreasing rate.
expanding tube at increasing rate.
expanding tube at constant rate.

Answer 124

long pipe at decreasing rate.

Question 125

If Blausius or Darcey friction factor is ‘f1’ then the Fanning friction factor is equal to
f1/4
4f2
2f1
f1/2

Answer 125

f1/4

Question 126

Pick out the wrong statement pertaining to fluid flow.
The ratio of average velocity to the maximum velocity for turbulent flow of Newtonion fluid in circular pipes is 0.5.
The Newtonion fluid velocity in a circular pipe flow is maximum at the centre of the pipe.
Navier-Stokes equation is applicable to the analysis of viscous flows.
Hagen-Poiseuille equation is applicable to the laminar flow of Newtonion fluids.

Answer 126

The ratio of average velocity to the maximum velocity for turbulent flow of Newtonion fluid in circular pipes is 0.5.

Question 127

A Newtonion liquid (rho = density, u = viscosity) is flowing with velocity v in a tube of diameter ‘D’. Let delta-p be the pressure drop across the length ‘L’. For a laminar flow, delta-p is proportional to
L rho-v2/D
L u;V/D2
D rho-v^2/L
u V/L

Answer 127

L rho-v2/D

Question 128

While starting a centrifugal pump, its delivery valve should be kept
opened.
closed.
either opened or closed ; it does not make any difference.
either opened or closed; depending on the fluid viscosity.

Answer 128

closed.

Question 129

For flow past a flat plate, if x is the distance along the plate in the direction of flow, the boundary layer thickness is proportional to
x
1/sqrt-x
x
1/x

Answer 129

x

Question 130

Sewage sludge is an example of the __________ fluid.
Bingham plastic
Newtonion
pseudoplastic
dilatent

Answer 130

Bingham plastic

Question 131

Multistage centrifugal pumps are generally used for
high head.
low head but high discharge.
highly viscous liquid.
slurries of high solid concentration.

Answer 131

high head.

Question 132

The fluid jet discharging from a 2” diameter orifice has a diameter of 1.75” at its vena-contracta. The co-efficient of contraction is
1.3
0.766
0.87
none of these

Answer 132

0.766

Question 133

A bed consists of particles of density 2000 kg/m^3. If the height of the bed is 1.5 metres and its porosity 0.6, the pressure drop required to fluidise the bed by air is
25.61 kPa
11.77 kPa
14.86 kPa
21.13 kPa

Answer 133

11.77 kPa

Question 134

Cavitation in a pump creates so many undesirable effects. Out of the following, which is not an undesirable effect created by cavitation ?
Decrease in effect
Increase in thrust
Develops noise
Develops high pressure

Answer 134

Develops high pressure

Question 135

For a specific centrifugal air blower operating at constant speed & capacity, the power requirement and pressure vary
directly as square of gas density.
directly as gas density.
directly as square root of gas density.
inversely as gas density.

Answer 135

directly as gas density.

Question 136

Capillary tube method of viscosity measurement is based on the
Hagen-Poiseulle’s equation
Stoke’s law
Navier-stokes equation
none of these

Answer 136

Hagen-Poiseulle’s equation

Question 137

It is possible to integrate an automatic flow controller to a
flow nozzle
venturimeter
rotameter
none of these

Answer 137

rotameter

Question 138

For liquid flow through a packed bed, the superficial velocity as compared to average velocity through the channel in the bed is
more
less
equal
independent of porosity

Answer 138

less

Question 139

For a reciprocating pump, the indicator diagram is the graph between the
discharge and overall efficiency.
volume swept by piston for one complete revolution and the pressure in the cylinder.
angle swept by the crank pin at any instant and the discharge.
none of these.

Answer 139

volume swept by piston for one complete revolution and the pressure in the cylinder.

Question 140

High specific speed of a pump implies that, it is a/an __________ pump.
centrifugal
mixed flow
axial flow
none of these

Answer 140

axial flow

Question 141

A gas (density = 1.5 kg/m^3 , viscosity = 2x 10^-5 kg/m.s) flowing through a packed bed (particle size = 0.5 cm, porosity = 0.5) at a superficial velocity of 2 m/s causes a pressure drop of 8400 Pa/m. The pressure drop for another gas, with density of 1.5kg/m^3and viscosity of 3 x 10^-5kg/m.s flowing at 3 m/s will be
8400 Pa/m
12600 Pa/m
18900 Pa/m
16800 Pa/m

Answer 141

12600 Pa/m

Question 142

One poise (unit of absolute/dynamic viscosity) is equivalent to one
gm/cm^2. sec.
gm/cm. sec.
cm^2/sec.
m2/sec.

Answer 142

gm/cm. sec.

Question 143

The equation relating friction factor to Reynold number, f^-0.5 = 4 loge (NRe/f)^-0.4, is called the __________ equation.
Nikuradse
Von-Karman
Blausius
Colebrook

Answer 143

Nikuradse

Question 144

What is the co-efficient of contraction, if a fluid jet discharging from a 50 mm diameter orifice has a 40 mm diameter at its vena-contracta ?
0.64
1.65
0.32
0.94

Answer 144

0.64

Cc = A(vena-contracta)/A(orifice)
Cc = (πDvc²/4) / (πDo²/4)
Cc = Dvc²/Do²
Cc = 40²/50²
Cc = 0.64

Question 145

For an unstable equilibrium of a floating body (where, M = metacentre.)
M is above G
M is below G
M & G coincide
none of these

Answer 145

M is below G

Question 146

Which of the following can be used for the direct measurement of volumetric flow rate of slurry ?
Venturimeter
Orificemeter
Rotameter
Pitot tube

Answer 146

Rotameter

Question 147

A pipe is defined as ‘hydraulically smooth’, if the friction factor
is not a function of Reynolds number.
for a given Reynolds number remains constant even on further smoothening of the pipe.
is zero irrespective of the Reynolds number.
none of these.

Answer 147

for a given Reynolds number remains constant even on further smoothening of the pipe.

Question 148

A Pitot tube indicates 5 cm of water (manometer) when it is being used for measuring velocity of air. The velocity of air in m/sec is
5
14.1
56.22
28.2

Answer 148

28.2

Question 149

Delivery of insufficient quantity of liquid by a pump may be caused by
air leak in the inlet
low rpm
too high a lift
all of these

Answer 149

all of these

Question 150

In case of a __________ the energy of flow is considerably decreased downstream of the machine.
blower
turbine
centrifugal pump
centrifugal fan

Answer 150

turbine

Question 151

With increase in the shear rate, the apparent viscosity of pseudoplastic fluids
increases
decreases
remains same
may increase or decrease; depends on the magnitude of shear rate

Answer 151

decreases

Question 152

Co-efficient of discharge (Cd) is defined as actual discharge/theoretical discharge and is equal to Cc . Cv; where Cc = Co-efficient of contraction and Cv = co-efficient of velocity. Cd of an orifice is usually about
0.42
0.62
0.82
0.98

Answer 152

0.62

Question 153

Purpose of hydraulic accumulator is to
ensure intermittant supply of hydraulic pressure.
increase the pressure and store/ accumulate it.
accumulate pressure to increase force.
generate high pressure to operate hydraulic machines like cranes, lifts, presses etc

Answer 153

generate high pressure to operate hydraulic machines like cranes, lifts, presses etc

HH high pressure - hydraulic accumulator

Question 154

Pick out the wrong statement.
Surface tension of a liquid is because of the difference in magnitude of adhesive & cohesive forces.
A hydrometer used for the determination of specific gravities of liquids works on the principle of buoyant forces.
In case of unsteady fluid flow, the velocity at any given point does not change with time.
Turbulent fluid flow is characterised by the rapid fluctuation of instantaneous pressure & velocity at a point.

Answer 154

In case of unsteady fluid flow, the velocity at any given point does not change with time.

Question 155

Purpose of relief valve in a reciprocating pump is to
protect the pump against developing excessive pressure.
facilitate unidirectional flow of liquid.
reduce the discharge pressure.
control the rate of discharge.

Answer 155

protect the pump against developing excessive pressure.

Question 156

Select the correct statement.
The discharge through a venturimeter depends upon Δp only and is independent of orientation of the meter.
A venturimeter with a given gage difference discharges at a greater rate, when the flow is vertically downward through it, than when the flow is vertically upward.
For a given pressure difference, the discharge of gas is greater through a venturimeter, when compressibility is taken into account, than when it is neglected.
The overall pressure loss is the same in a given pipe line, whether a venturimeter or a nozzle with the same throat dia is used.

Answer 156

The discharge through a venturimeter depends upon Δp only and is independent of orientation of the meter.

Remember: correct statement upon Δp only

Question 157

In case of turbulent flow of fluid through a circular pipe, the
mean flow velocity is about 0.5 times the maximum velocity.
velocity profile becomes flatter and flatter with increasing Reynolds number.
point of maximum instability exists at a distance of 2r/3 from the pipe wall (r = pipe radius).
skin friction drag, shear stresses, random orientation of fluid particles and slope of velocity profile at the wall are more.

Answer 157

skin friction drag, shear stresses, random orientation of fluid particles and slope of velocity profile at the wall are more.

Question 158

What is the maximum theoretical suction lift (metres) of a reciprocating pump ?
5
10
50
100

Answer 158

10

Question 159

The terminal velocity of a particle moving through a fluid varies as dp^n. The value of n is equal to __________ in Stoke’s law regime.
1
0.5
2
1.5

Answer 159

2

Question 160

Function of air vessel provided in a reciprocating pump is to
reduce discharge fluctuation.
reduce the danger of cavitation.
avoid the necessity of priming.
increase the pump efficiency.

Answer 160

reduce discharge fluctuation.

Question 161

The Prandtl pitot tube measures the
velocity at a point in the flow.
pressure at a point.
average flow velocity.
pressure difference in pipe flow.

Answer 161

velocity at a point in the flow.

Question 162

Pressure drop in packed bed for turbulent flow is given by the __________ equation.
Kozney-Karman
Blake-Plummer
Leva’s
Hagen-Poiseulle’s

Answer 162

Blake-Plummer

Question 163

In the complete turbulence zone (in rough pipes), the
rough and smooth pipes have the same friction factor.
laminar film covers the roughness projections.
friction factor depends upon NRe only.
friction factor is independent of the relative roughness.

Answer 163

friction factor is independent of the relative roughness.

Question 164

Which of the following has the minimum compressibility ?
Water at room temperature
Air at room temperature
Oxygen at room temperature
Nitrogen at room temperature

Answer 164

Water at room temperature

Question 165

In case of centrifugal fan or blower, the gas capacity varies as
speed
(speed)^2
(speed)^3
(speed)^0.5

Answer 165

speed

Question 166

Pick out the wrong statement.
A fluid mass is free from shearing forces, when it is made to rotate with a uniform velocity.
Newton’s law of viscosity is not applicable to the turbulent flow of fluid with linear velocity distribution.
Laminar flow of viscous liquids is involved in the lubrication of various types of bearings.
Rise of water in capillary tubes reduces with the increasing diameter of capillary tubes.

Answer 166

Newton’s law of viscosity is not applicable to the turbulent flow of fluid with linear velocity distribution.

Question 167

Pick out the wrong statement.
In a static mass of liquid, the pressure at a point is the same for all liquids.
Pressure decreases exponentially with elevation in an isothermal atmosphere.
Atmospheric pressure = absolute pressure-gage pressure.
As per Pascal’s law, the pressure at a point in a static or uniformly moving fluid is equal in all directions.

Answer 167

In a static mass of liquid, the pressure at a point is the same for all liquids.

Question 168

The velocity profile for a Bingham plastic fluid flowing (under laminar conditions) in a pipe is
parabolic
flat
flat near the wall and parabolic in the middle
parabolic near the wall and flat in the middle.

Answer 168

parabolic near the wall and flat in the middle.

Question 169

Mach number is the ratio of the speed of the
fluid to that of the light.
light to that of the fluid.
fluid to that of the sound.
sound to that of the fluid.

Answer 169

fluid to that of the sound.

Question 170

A piezometer opening measures the __________ fluid pressure.
static
undisturbed
total
dynamic

Answer 170

undisturbed

Question 171

Drag force on the float of a rotameter is(where Q = flow rate of the )
is propotional to Q
is propotional to sqrt-Q
is propotional to Q2
constant

Answer 171

constant

Question 172

The unit of dynamic viscosity in SI unit is
kg/m . sec
N/m^2
m^2 /sec.
m/N. sec.

Answer 172

kg/m . sec

Question 173

Pressure drop (delta-p) for a fluid flowing in turbulent flow through a pipe is a function of velocity (V) as
V^1.8
V^-0.2
V^2.7
V^2

Answer 173

V^2

Question 174

Dean number is concerned with the
fluid-particle interaction.
fluid flow through helical pipes.
power consumption in agitated vessels.
psychrometry.

Answer 174

fluid flow through helical pipes.

Question 175

The equation given below is called the __________ .
F^-0.5 = 4.07 loge (NResqrt-f)^-0.6
Colebrook formula
Von-Karman equation
Fanning equation
none of these

Answer 175

Von-Karman equation

Question 176

Poise is converted into stoke by
multiplying with density (gm/c.c).
dividing by density (gm/c.c).
multiplying with specific gravity.
dividing by specific gravity.

Answer 176

dividing by density (gm/c.c).

Question 177

The fluid velocity varies as the square root of the cylindrical pipe diameter in case of steady state laminar flow at constant pressure drop fo __________ fluid.
dilatant
pseudoplastic
Bingham plastic
Newtonion

Answer 177

dilatant

square root cylindrical laminar dilatant

Question 178

Kinetic energy of fluid per unit weight represented by the velocity head is given by
2v^2/gc
v^2/2gc
rho-v^2/gc
rho-.v^2/2gc

Answer 178

v^2/2gc

Question 179

At a constant speed of the centrifugal pump . it __________ the impeller diameter.
capacity varies directly with
head varies as the square of
horsepower varies as the cube of
all of these

Answer 179

all of these

Question 180

The pressure co-efficient is the ratio of pressure forces to __________ forces.
viscous
inertial
gravity
surface tension

Answer 180

viscous