What is the relation between the number of poles and pole pitch with power factor? a) number of poles increases, pole pitch increases, bad power factor b) number of poles increases, pole pitch decreases, good power factor c) number of poles increases, pole pitch decreases, good power factor d) number of poles increases, pole pitch increases, bad power factor
What is the relation between the number of poles and pole pitch with power factor? a) number of poles increases, pole pitch increases, bad power factor b) number of poles increases, pole pitch decreases, good power factor c) number of poles increases, pole pitch decreases, good power factor d) number of poles increases, pole pitch increases, bad power factor
Share
15 Answers
You must login to add an answer.
c) number of poles increases, pole pitch decreases, good power factor
d) small air gap length, dispersion coefficient decreases, good power factor
d) small air gap length, dispersion coefficient decreases, good power factor
Answer: c
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
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.
(c) number of poles increases, pole pitch decreases, good power factor
c) number of poles increases, pole pitch decreases, good power factor
c) number of poles increases, pole pitch decreases, good power factor
c) number of poles increases, pole pitch decreases, good 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.
c) number of poles increases, pole pitch decreases, good power factor
c) number of poles increases, pole pitch decreases, good power factor
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
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.