Induction Motor MCQs Part 13
Contents
- 1 The starting torque of a 3-phase induction motor is related to supply voltage as follows
- 2 The number of rotor slots in a squirrel cage motor are __________ rotor slots
- 3 An 8 pole alternator runs at 450 RPM and supplies electric power to an induction motor having 6 poles and has full load slip of 3%. The frequency of rotor EMF is
- 4 The input to a 3 phase induction motor is 40 kW. The stator losses amount to 900 W. If slip = 2%, the rotor Cu loss per phase is
- 5 If speed of 3-phase induction motor increases, its efficiency
The starting torque of a 3-phase induction motor is related to supply voltage as follows
- Starting torque is independent of supply voltage
- Startining torque is directly proportional supply voltage
- Starting torque is directly proportional to square of supply voltage
- Starting torque is inversely proportional to square of supply voltage
Correct answer: 3. Starting torque is directly proportional to square of supply voltage
The number of rotor slots in a squirrel cage motor are __________ rotor slots
The number of rotor slots in a squirrel cage motor are __________ rotor slots
- More than
- Less than
- Either of above
- None of above
Correct answer: 3. Either of above
An 8 pole alternator runs at 450 RPM and supplies electric power to an induction motor having 6 poles and has full load slip of 3%. The frequency of rotor EMF is
An 8 pole alternator runs at 450 RPM and supplies electric power to an induction motor having 6 poles and has full load slip of 3%. The frequency of rotor EMF is
- 0.5 Hz
- 0.9 Hz
- 1.3 Hz
- 1.5 Hz
Correct answer: 2. 0.9 Hz
Supply frequency = N*P/120 = (450*8)/120 = 30 Hz
Frequency of rotor EMF = f’ = sf = 0.03 * 30 = 0.9 Hz
The input to a 3 phase induction motor is 40 kW. The stator losses amount to 900 W. If slip = 2%, the rotor Cu loss per phase is
The input to a 3 phase induction motor is 40 kW. The stator losses amount to 900 W. If slip = 2%, the rotor Cu loss per phase is:
- 182.54 W
- 260.67 W
- 292.53 W
- 305.63 W
Correct answer: 2. 260.67 W
Solution:
Stator output = Stator iput – Stator losses = 40 – 0.9 = 39.1 kW
———————
Rotor input = Stator input = 39.1 kW
Rotor Cu loss = s * Rotor input = 0.02 * 39.1 = 0.782 kW Rotor Cu loss per phase = 0.782 * 1000/3 = 260.67 W
If speed of 3-phase induction motor increases, its efficiency
If speed of 3-phase induction motor increases, its efficiency:
- Increases
- Decreases
- Remains the same
- None of these
Correct answer: 1. Increases
Explanation: Efficient can be mathematically related to slip s as:
Efficiency = 1 – s
Is speed of induction motor increases, the slip (s0) decreases and hence the efficiency increases.