Explore topic-wise MCQs in Electrical Engineering.

This section includes 517 Mcqs, each offering curated multiple-choice questions to sharpen your Electrical Engineering knowledge and support exam preparation. Choose a topic below to get started.

301.

When the excitation of an unloaded salient pole synchronous motor suddenly gets disconnected

A. the motor stops
B. it runs as a reluctance motor at the same speed
C. it runs as a reluctance motor at a lower speed
D. none of the above
Answer» B. it runs as a reluctance motor at the same speed
Discussion
302.

A synchronous motor can be started by

A. pony motor
B. D.C. compound motor
C. providing damper winding
D. any of the above
Answer» E.
Discussion
303.

If the field circuit of an unloaded salientpole synchronous motor gets suddenly open-circuited, then

A. it runs at a slower speed
B. the motor stops
C. it continues to run at the same speed
D. it runs at a very high speed
Answer» C. it continues to run at the same speed
Discussion
304.

The minimum armature current of the synchronous motor corresponds to operation at

A. zero power factor leading
B. unity power factor
C. 0.707 power factor lagging
D. 0.707 power factor leading
Answer» C. 0.707 power factor lagging
Discussion
305.

The operating speed of a synchronous motor can be changed to new fixed value by

A. changing the load
B. changing the supply voltage
C. changing frequency
D. using brakes
Answer» D. using brakes
Discussion
306.

If the field of a synchronous motor is underexcited, the power factor will be

A. zero
B. unity
C. lagging
D. leading
Answer» D. leading
Discussion
307.

The induced e.m.f. in a synchronous motor working on leading power factor will be

A. more than the supply voltage
B. less than the supply voltage
C. equal to the supply voltage
D. none of the above
Answer» B. less than the supply voltage
Discussion
308.

When the field of a synchronous motor is under-excited, the power factor will be

A. leading
B. lagging
C. unity
D. zero
Answer» C. unity
Discussion
309.

A synchronous motor can develop synchronous torque

A. when under loaded
B. while over-excited
C. only at synchronous speed
D. below or above synchronous speed
Answer» D. below or above synchronous speed
Discussion
310.

Change of D.C. excitation of a synchronous motor changes

A. Applied voltage of the motor
B. Motor speed
C. Power factor of power drawn by the motor
D. Any of the above
Answer» D. Any of the above
Discussion
311.

The maximum constant load torque under which a synchronous motor will pull into synchronism at rated rotor supply voltage and frequency is known as

A. pull-up torque
B. pull-in torque
C. pull-out torque
D. none of the above
Answer» C. pull-out torque
Discussion
312.

A synchronous motor connected to infinite bus-bars has at constant full load, 100% excitation and unity power factor. On changing the excitation only, the armature current will have

A. no change of power factor
B. lagging power factor with over-excitation
C. leading power factor with under-excitation
D. leading power factor with over-excitation
Answer» E.
Discussion
313.

A synchronous motor develops maximum power when load angle is

A. 45°
B. 60°
C. 90°
D. 120°
Answer» D. 120°
Discussion
314.

The working of a synchronous motor is similar to

A. gear train arrangement
B. transmission of mechancial power by shaft
C. distribution transformer
D. turbine
Answer» C. distribution transformer
Discussion
315.

When the rotor speed, in a synchronous machine, becomes more than the synchronous speed during hunting, the damper bars develop

A. inductor motor torque
B. induction generator torque
C. synchronous motor torque
D. d.c. motor toque
Answer» C. synchronous motor torque
Discussion
316.

Due to which of the following reasons a synchronous motor fails to pull into synchronism after applying D.C. field current?

A. High field current
B. Low short circuit ratio
C. High core losses
D. Low field current
Answer» E.
Discussion
317.

The efficiency of a properly designed synchronous motor will usually fall in range

A. 60 to 70%
B. 75 to 80%
C. 85 to 95%
D. 99 to 99.5%
Answer» D. 99 to 99.5%
Discussion
318.

The magnitude of field flux in a 3-phase synchronous motor

A. remains constant at all loads
B. varies with speed
C. varies with the load
D. varies with power factor
Answer» B. varies with speed
Discussion
319.

In a synchronous motor which loss varies with load ?

A. Windage loss
B. Bearing friction loss
C. Copper loss
D. Core loss
Answer» D. Core loss
Discussion
320.

A synchronous machine with low value of short-circuit ratio has

A. lower stability limit
B. high stability limit
C. good speed regulation
D. good voltage regulation
Answer» B. high stability limit
Discussion
321.

The duration of sudden short-circuit test on a synchronous motor is usually about

A. one hour
B. one minute
C. one second
D. none of the above
Answer» D. none of the above
Discussion
322.

Hunting in a synchronous motor cannot be due to

A. windage friction
B. variable load
C. variable frequency
D. variable supply voltage
Answer» B. variable load
Discussion
323.

By which of the following methods the constant speed of a synchronous motor can be changed to new fixed value ?

A. By changing the supply frequency
B. By interchanging any two phases
C. By changing the applied voltage
D. By changing the load
Answer» B. By interchanging any two phases
Discussion
324.

In a synchronous motor, the maximum power developed depends on all of the following except

A. rotor excitation
B. maximum value of coupling angle
C. direction of rotation
D. supply voltage
Answer» D. supply voltage
Discussion
325.

In case one phase of a three-phase synchronous motor is short-circuited the motor will

A. not start
B. run at 2/3 of synchronous speed
C. run with excessive vibrations
D. take less than the rated load
Answer» B. run at 2/3 of synchronous speed
Discussion
326.

An important advantage of a synchronous motor over wound round induction motor is that

A. its power factor may be varied at will
B. its speed is independent of supply frequency
C. its speed may be controlled more easily
D. none of the above
Answer» B. its speed is independent of supply frequency
Discussion
327.

The power factor of a synchronous motor is better than that of induction motor because

A. stator supply is relieved of responsibility of producing magnetic field
B. mechanical load on the motor can be adjusted
C. synchronous motor runs at synchronous speed
D. synchronous motor has large air gap
Answer» B. mechanical load on the motor can be adjusted
Discussion
328.

As the load is applied to a synchronous motor, the motor takes more armature current because

A. The increased load has to take more current
B. The rotor by shifting its phase backward causes motor to take more current
C. The back e.m.f. decreases causing an increase in motor current
D. The rotor strengthens the rotating field causing more motor current
Answer» C. The back e.m.f. decreases causing an increase in motor current
Discussion
329.

The size of a synchronous motor decreases with the increase in

A. flux density
B. horse power rating
C. speed
D. all of the above
Answer» B. horse power rating
Discussion
330.

For power factor correction, synchronous motors operate at

A. no-load and greatly over-excited fields
B. no-load and under-excited fields
C. normal load with minimum excitation
D. normal load with zero excitation
Answer» B. no-load and under-excited fields
Discussion
331.

The rotor copper losses, in a synchronous motor, are met by

A. d.c. source
B. armature input
C. motor input
D. supply lines
Answer» B. armature input
Discussion
332.

Riunting in a synchronous motor takes place

A. When supply voltage fluctuates
B. When load varies
C. When power factor is unity
D. Motor is under loaded
Answer» C. When power factor is unity
Discussion
333.

Stability of a synchronous machine

A. decreases with increase in its excitation
B. increases with increase in its excitation
C. remains unaffected with increase in excitation
D. any of the above
Answer» C. remains unaffected with increase in excitation
Discussion
334.

Which of the following losses, in a synchronous motor, does not vary with load?

A. Windage loss
B. Copper losses
C. Any of the above
D. None of the above
Answer» B. Copper losses
Discussion
335.

Which of the following motors is non-self starting ?

A. D.C. series motor
B. synchronous motor
C. Squirrel cage induction motor
D. Wound round induction motor
Answer» C. Squirrel cage induction motor
Discussion
336.

A synchronous motor working at leading power factor can be used as

A. voltage booster
B. phase advancer
C. noise generator
D. mechanical synchronizer
Answer» C. noise generator
Discussion
337.

Which of the following losses is not dissipated by the stator core surface in a synchronous motor ?

A. Eddy current losses in the conductors
B. Iron losses in the stator
C. Copper losses in the slot portion of the conductors
D. Windage losses
Answer» E.
Discussion
338.

While starting a synchronous motor by induction motor action, field winding is usually

A. connected to D.C. supply
B. short-circuited by low resistance
C. kept open-circuited
D. none of the above
Answer» C. kept open-circuited
Discussion
339.

An over-excited synchronous motor takes

A. leading current
B. lagging current
C. both (A) and (B)
D. none of the above
Answer» B. lagging current
Discussion
340.

Slip-rings in a synchronous motor carry

A. direct current
B. alternating current
C. no current
D. all of the above
Answer» B. alternating current
Discussion
341.

If excitation of a synchronous motor running with a constant load is decreased from its normal value, ignoring effects of armature reaction, it leads to

A. increase in both armature current and power factor angle
B. increase in back e.m.f. but decrease in armature current
C. increase in both armature current and power factor which is lagging
D. increase in torque angle but decrease in back e.m.f.
Answer» B. increase in back e.m.f. but decrease in armature current
Discussion
342.

In a synchronous motor, the magnitude of stator back e.m.f. Eb depends on

A. load on the motor
B. d.c. excitation only
C. both the speed and rotor flux
D. none of the above
Answer» C. both the speed and rotor flux
Discussion
343.

In a synchronous motor, the magnitude of stator back e.m.f. £& depends on

A. d.c. excitation only
B. speed of the motor
C. load on the motor
D. both the speed and rotor flux
Answer» B. speed of the motor
Discussion
344.

To limit the operating temperature an electrical machine should have proper

A. voltage rating
B. current rating
C. power factor
D. speed
Answer» C. power factor
Discussion
345.

The synchronous motor is not inherently self-starting because

A. the force required to accelerate the rotor to the synchronous speed in an instant is absent
B. the starting device to accelerate the rotor to near synchronous speed is absent
C. a rotating magnetic field does not have enough poles
D. the rotating magnetic field is produced by only 50 Hz frequency currents
Answer» B. the starting device to accelerate the rotor to near synchronous speed is absent
Discussion
346.

Synchronous motors are generally not self-starting because

A. the direction of rotation is not fixed
B. the direction of instantaneous torque reverses after half cycle
C. startes cannot be used on these machines
D. starting winding is not provided on the machines
Answer» C. startes cannot be used on these machines
Discussion
347.

If load (or torque) angle of a 4-pole synchronous motor is 6° electrical, its value in mechanical degrees is

A. 2
B. 3
C. 4
D. 6
Answer» C. 4
Discussion
348.

The coupling angle or load angle of synchronous motor is defined as the angle between the

A. rotor and stator teeth
B. rotor and the stator poles of opposite polarity
C. rotor and the stator poles of the same polarity
D. none of the above
Answer» C. rotor and the stator poles of the same polarity
Discussion
349.

In a synchronous motor, the armature current has large values for

A. high excitation only
B. low excitation only
C. both high and low excitation
D. none of the above
Answer» D. none of the above
Discussion
350.

The synchronous motor is not inherently self-starting because%!

A. the force required to accelerate the rotor to the synchronous speed in an instant is absent
B. the starting device to accelerate the rotor to near synchronous speed is absent
C. a rotating magnetic field does not have enough poles
D. the rotating magnetic field is produced by only 50 Hz frequency currents
Answer» B. the starting device to accelerate the rotor to near synchronous speed is absent
Discussion