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(c) 60°
Answer: d
Explanation: First the height of the winding is calculated from its formula. Next the height
of pole shoe is calculated. Both the values are added with 0.02 to give the radial length
of the pole shoe
C) 60°
c) 60°
c) 60°
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always
give a good approximation. The calculation of the magnetizing mmf should be based
upon the value of the flux density at 60° from the interpolar axis.
c) 60°
c) 60°
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.
Answer: c Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.
c) 60
c) 60
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always
give a good approximation. The calculation of the magnetizing mmf should be based
upon the value of the flux density at 60° from the interpolar axis
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always
give a good approximation. The calculation of the magnetizing mmf should be based
upon the value of the flux density at 60° from the interpolar axis.
Answer: c
Explanation: The flux tube crossing the air gap at 60° from the interpolar axis will always give a good approximation. The calculation of the magnetizing mmf should be based upon the value of the flux density at 60° from the interpolar axis.