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The magnetizing current decreases as the number of poles is decreased.
Answer: a Explanation: As the number of poles is reduced the magnetizing current is reduced. As the magnetizing current is reduced, the dispersion coefficient decreases and the power factor increases.
Answer: a
See lessExplanation: As the number of poles is reduced the magnetizing current is reduced. As the magnetizing current is reduced, the dispersion coefficient decreases and the power factor increases.
What is the relation between maximum power and the number of poles?
Answer: c Explanation: Short circuit current is indirectly proportional to the number of poles. The short circuit current increases the dispersion coefficient. As the dispersion coefficient increases, the maximum power factor decreases.
Answer: c
See lessExplanation: Short circuit current is indirectly proportional to the number of poles. The short circuit current increases the dispersion coefficient. As the dispersion coefficient increases, the maximum power factor decreases.
What is the relation between the ideal short circuit current and the number of poles?
Answer: c Explanation: The ideal short circuit current is indirectly proportional to the number of poles. As the number of poles increases, the ideal short circuit current decreases.
Answer: c
Explanation: The ideal short circuit current is indirectly proportional to the number of poles. As the number of poles increases, the ideal short circuit current decreases.
See lessWhat is the relation between the overload capacity and magnetizing current?
Answer: a Explanation: Overload capacity is directly proportional to the magnetizing current. Overload capacity increases the magnetizing current and this increases the dispersion coefficient and this gives a poor power factor.
Answer: a
Explanation: Overload capacity is directly proportional to the magnetizing current. Overload capacity increases the magnetizing current and this increases the dispersion coefficient and this gives a poor power factor.
See lessWhat is the relation between the overload capacity and dispersion coefficient?
Answer: b Explanation: Overload capacity is indirectly proportional to the dispersion coefficient. The overload capacity of induction motors decreases with an increase in the dispersion coefficient.
Answer: b
See lessExplanation: Overload capacity is indirectly proportional to the dispersion coefficient. The overload capacity of induction motors decreases with an increase in the dispersion coefficient.
What is the value of the no. of poles for obtaining a dispersion coefficient = 0.5?
Answer: d Explanation: The machines with 6 poles can result in a dispersion coefficient of 0.5. The dispersion coefficient of 0.5 can be obtained for 2 pole and 4 pole machines also.
Answer: d
See lessExplanation: The machines with 6 poles can result in a dispersion coefficient of 0.5. The dispersion coefficient of 0.5 can be obtained for 2 pole and 4 pole machines also.
What is the relation between the dispersion coefficient and maximum power factor?
Answer: b Explanation: The dispersion coefficient is indirectly proportional to the maximum power factor. As the dispersion coefficient increases, the power factor reduces drastically.
Answer: b
See lessExplanation: The dispersion coefficient is indirectly proportional to the maximum power factor. As the dispersion coefficient increases, the power factor reduces drastically.
What is the relation between the power factor and the air gap length?
Answer: d Explanation: If the air gap length is small, the dispersion coefficient decreases. As the dispersion coefficient decreases, the power factor increases.
Answer: d
Explanation: If the air gap length is small, the dispersion coefficient decreases. As the dispersion coefficient decreases, the power factor increases.
See lessWhat is the relation between the number of poles and pole pitch with power factor?
Answer: c Explanation: As the number of poles increases, the pole pitch decreases and the number of slots per pole per phase also decreases. This increases the dispersion coefficient and it leads to poor power factor.
Answer: c
See lessExplanation: As the number of poles increases, the pole pitch decreases and the
number of slots per pole per phase also decreases. This increases the dispersion
coefficient and it leads to poor power factor.
The increase in number of poles, the dispersion coefficient increases and this gives a low power factor.
Answer: a Explanation: The increase in number of poles increases the dispersion coefficient. The increases in dispersion coefficient gives a low power factor.
Answer: a
Explanation: The increase in number of poles increases the dispersion coefficient. The increases in dispersion coefficient gives a low power factor.
See less