Chapter:

190+ Pumps Solved MCQs

in Fluid Mechanics (FM)

These multiple-choice questions (MCQs) are designed to enhance your knowledge and understanding in the following areas: Civil Engineering .

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101.	In hydraulic head, NPSH is used for the analysis of
A.	Adiabatic expansion
B.	Priming
C.	Wear
D.	Cavitation View Answer
Answer» D. Cavitation View Answer

discuss

102.	NPSH is the difference between
A.	Suction pressure and vapour pressure
B.	Vapour pressure and suction pressure
C.	Suction pressure and heat
D.	Shaft and head View Answer
Answer» A. Suction pressure and vapour pressure

discuss

103.	What can NPSH be used to determine
A.	Friction characteristics
B.	Pipe diameter
C.	Cavitation
D.	Thermal expansion View Answer
Answer» C. Cavitation

discuss

104.	The measure of how close the fluid is to the given point is called
A.	Flashing
B.	Darcy’s factor
C.	Transfer temperature
D.	Heizenberg’s factor View Answer
Answer» A. Flashing

discuss

105.	NPSH is relevant
A.	Outside the pumps
B.	Inside the pumps
C.	Away from the pumps
D.	Series and parallel with the pumps View Answer
Answer» A. Outside the pumps

discuss

106.	With the increase in cavitation, the drag coefficient of the impeller
A.	Increases
B.	Decreases
C.	Same
D.	Independent View Answer
Answer» A. Increases

discuss

107.	What is positive suction head?
A.	Draft tube is above
B.	Pump pressure is above
C.	Liquid level is above
D.	Turbine head is above View Answer
Answer» C. Liquid level is above

discuss

108.	NPSHr is determined by using
A.	Pump pressure
B.	PumpLinx
C.	Heat transfer
D.	Chemical energy View Answer
Answer» B. PumpLinx

discuss

109.	If we use two lower capacity pumps in parallel, cavitation
A.	Increases
B.	Decreases
C.	Same
D.	Independent View Answer
Answer» B. Decreases

discuss

110.	The characteristic curves of a centrifugal pump, plots required by the pump.
A.	Velocity
B.	Pressure
C.	NPSH
D.	Velocity and pressure View Answer
Answer» C. NPSH

discuss

111.	Which among the following is not a characteristic curve for centrifugal pump?
A.	Transfer speed vs Transfer pressure
B.	Head vs Flow rate
C.	Power input vs pump efficiency
D.	Specific speed vs pump efficiency View Answer
Answer» A. Transfer speed vs Transfer pressure

discuss

112.	The consequence of Newtons second law is
A.	Conservation of angular momentum
B.	Conservation of mass
C.	Conservation of potential energy
D.	Conservation of kinetic energy View Answer
Answer» A. Conservation of angular momentum

discuss

113.	Which of the following is taken into account during a characteristic curve?
A.	Flow rate
B.	Cavitation
C.	Tolerances
D.	Casing View Answer
Answer» A. Flow rate

discuss

114.	As the specific speed increases, the slope of HQ curve
A.	Decreases
B.	Increases
C.	Independent
D.	Remains the same View Answer
Answer» C. Independent

discuss

115.	The primary selection tool is called as
A.	Pump curve
B.	Speed curve
C.	Power curve
D.	Fluid curve View Answer
Answer» A. Pump curve

discuss

116.	Voids are created due to
A.	Reaction ratio
B.	Pressure ratio
C.	Liquid free layers
D.	Volumetric layers View Answer
Answer» C. Liquid free layers

discuss

117.	Cavitation usually occurs due to the changes in
A.	Pressure
B.	Temperature
C.	Volume
D.	Heat View Answer
Answer» A. Pressure

discuss

118.	Degree of reactions are most commonly used in
A.	Turbomachinery
B.	Pressure drag
C.	Aerodynamics
D.	Automobiles View Answer
Answer» A. Turbomachinery

discuss

119.	At high pressure, the voids can generate
A.	Drag force
B.	Mass density
C.	Shock waves
D.	Flow speed View Answer
Answer» C. Shock waves

discuss

120.	Voids that implode near metal surface develops a
A.	Drag force
B.	Cyclic stress
C.	Shock waves
D.	Flow speed View Answer
Answer» B. Cyclic stress

discuss

121.	Internal cavitation occurs due to
A.	Drag force
B.	Cyclic stress
C.	Shock waves
D.	Flow speed View Answer
Answer» C. Shock waves

discuss

122.	The velocities of the blade angles can be found out using
A.	Mach number
B.	Froude’s number
C.	Velocity triangles
D.	Reynolds number View Answer
Answer» C. Velocity triangles

discuss

123.	Hydrodynamic cavitation is due to the process of
A.	Vaporisation
B.	Sedimentation
C.	Filtration
D.	Excavation View Answer
Answer» A. Vaporisation

discuss

124.	The process of bubble generation leads to
A.	High temperatures
B.	High pressures
C.	High energy densities
D.	High volumetric ratio View Answer
Answer» C. High energy densities

discuss

125.	Reciprocating pump is a
A.	Negative displacement pump
B.	Positive displacement pump
C.	Diaphragm pump
D.	Emulsion pump
Answer» B. Positive displacement pump

discuss

126.	What happens to the reciprocating pump when left untouched?
A.	Efficiency decreases
B.	Wear and tear
C.	Surface expansion
D.	Pressure change
Answer» C. Surface expansion

discuss

127.	Reciprocating pumps operate by drawing into the chamber
A.	Liquid
B.	Pressure
C.	Heat
D.	Electricity
Answer» A. Liquid

discuss

128.	The cylinder of reciprocating cylinder is made up of
A.	Cast iron
B.	Wrought iron
C.	Aluminium
D.	Copper View Answer
Answer» A. Cast iron

discuss

129.	The higher discharge valve line holds the discharge valve
A.	Open
B.	Closed
C.	Stop functioning
D.	Automatic View Answer
Answer» B. Closed

discuss

130.	Reciprocating pumps are also called as
A.	Force pumps
B.	Mass Pumps
C.	Heat pumps
D.	Speed pumps View Answer
Answer» A. Force pumps

discuss

131.	Reciprocating pumps are classified according to
A.	Drag force
B.	Number of cylinders
C.	Shock waves
D.	Flow speed View Answer
Answer» B. Number of cylinders

discuss

132.	Simple hand operating pump is also called as
A.	Froth pump
B.	Bicycle pump
C.	Multistage pumps
D.	Centrifugal pumps View Answer
Answer» B. Bicycle pump

discuss

133.	Power operated pump in which only one side engages the fluid displacement is called
A.	Froth pump
B.	Single acting
C.	Double acting
D.	Bicycle pump View Answer
Answer» B. Single acting

discuss

134.	Operation of reciprocating motion is done by a source
A.	Power
B.	Energy
C.	Momentum
D.	Inertia View Answer
Answer» A. Power

discuss

135.	An up and down back and forth relative linear motion is called
A.	Reciprocation
B.	Rotation
C.	Filtration
D.	Excavation View Answer
Answer» A. Reciprocation

discuss

136.	Power operated pump in which only both sides engage the fluid displacement is called
A.	Froth pump
B.	Single acting
C.	Double acting
D.	Bicycle pump View Answer
Answer» C. Double acting

discuss

137.	The two opposite motion that comprise a single reciprocation is called
A.	Turbocharger
B.	Stokes
C.	Fluid motion
D.	Auto motion View Answer
Answer» A. Turbocharger

discuss

138.	Reciprocating pumps has efficiency compared to centrifugal pumps
A.	Higher
B.	Lower
C.	Equal
D.	Exponential View Answer
Answer» B. Lower

discuss

139.	Reciprocating pumps works on the principle of
A.	Drag force
B.	Liquid flow push
C.	Shock waves
D.	Flow speed View Answer
Answer» B. Liquid flow push

discuss

140.	Reciprocating pump is a type of
A.	Positive displacement pump
B.	Bicycle pump
C.	Multistage pumps
D.	Centrifugal pumps View Answer
Answer» A. Positive displacement pump

discuss

141.	During the suction stroke the moves left thus creating vacuum in the Cylinder.
A.	Piston
B.	Cylinder
C.	Valve
D.	Pump View Answer
Answer» A. Piston

discuss

142.	When both the sources are effective it is called as
A.	Double acting pump
B.	Single acting pump
C.	Triple acting pump
D.	Normal pump View Answer
Answer» A. Double acting pump

discuss

143.	A repetitive variation about the central value of equilibrium is called
A.	Reciprocation
B.	Oscillation
C.	Filtration
D.	Excavation View Answer
Answer» B. Oscillation

discuss

144.	A linear wheel turning motion is called as a
A.	Reciprocation
B.	Rotation
C.	Oscillation
D.	Bicycle pump View Answer
Answer» B. Rotation

discuss

145.	A reciprocating pump that has 1200 crank is
A.	Froth pump
B.	Single acting
C.	Double acting
D.	Triple acting View Answer
Answer» D. Triple acting View Answer

discuss

146.	In a positive displacement pump, what gets displaced?
A.	Fluid
B.	Volume
C.	Pressure
D.	Temperature View Answer
Answer» B. Volume

discuss

147.	What happens to the reciprocating pump when left untouched?
A.	Efficiency decreases
B.	Wear and tear
C.	Surface expansion
D.	Pressure change View Answer
Answer» C. Surface expansion

discuss

148.	Positive displacement pumps are capable of developing pressures, in suction pressure.
A.	High, low
B.	Low, high
C.	High, high
D.	Low, low View Answer
Answer» A. High, low

discuss

149.	When is a reciprocating pump used?
A.	When quantity of liquid is small
B.	When quantity of liquid is large
C.	To pump high pressure
D.	To pump low pressure View Answer
Answer» A. When quantity of liquid is small

discuss

150.	Positive displacement pumps are also called as_
A.	Constant pressure pump
B.	Pressure drag pumps
C.	Constant volume pumps
D.	Constant head pumps View Answer
Answer» C. Constant volume pumps

discuss

190+ Pumps Solved MCQs

In hydraulic head, NPSH is used for the analysis of

NPSH is the difference between

What can NPSH be used to determine

The measure of how close the fluid is to the given point is called

NPSH is relevant

With the increase in cavitation, the drag coefficient of the impeller

What is positive suction head?

NPSHr is determined by using

If we use two lower capacity pumps in parallel, cavitation

The characteristic curves of a centrifugal pump, plots required by the pump.

Which among the following is not a characteristic curve for centrifugal pump?

The consequence of Newtons second law is

Which of the following is taken into account during a characteristic curve?

As the specific speed increases, the slope of HQ curve

The primary selection tool is called as

Voids are created due to

Cavitation usually occurs due to the changes in

Degree of reactions are most commonly used in

At high pressure, the voids can generate

Voids that implode near metal surface develops a

Internal cavitation occurs due to

The velocities of the blade angles can be found out using

Hydrodynamic cavitation is due to the process of

The process of bubble generation leads to

Reciprocating pump is a

What happens to the reciprocating pump when left untouched?

Reciprocating pumps operate by drawing into the chamber

The cylinder of reciprocating cylinder is made up of

The higher discharge valve line holds the discharge valve

Reciprocating pumps are also called as

Reciprocating pumps are classified according to

Simple hand operating pump is also called as

Power operated pump in which only one side engages the fluid displacement is called

Operation of reciprocating motion is done by a source

An up and down back and forth relative linear motion is called

Power operated pump in which only both sides engage the fluid displacement is called

The two opposite motion that comprise a single reciprocation is called

Reciprocating pumps has efficiency compared to centrifugal pumps

Reciprocating pumps works on the principle of

Reciprocating pump is a type of

During the suction stroke the moves left thus creating vacuum in the Cylinder.

When both the sources are effective it is called as

A repetitive variation about the central value of equilibrium is called

A linear wheel turning motion is called as a

A reciprocating pump that has 1200 crank is

In a positive displacement pump, what gets displaced?

What happens to the reciprocating pump when left untouched?

Positive displacement pumps are capable of developing pressures, in suction pressure.

When is a reciprocating pump used?

Positive displacement pumps are also called as_