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The path of the magnetic flux in a transformer has-
  • a)
    High reluctance
  • b)
    Low resistance
  • c)
    High conductivity
  • d)
    Low reluctance
Correct answer is option 'D'. Can you explain this answer?
Verified Answer
The path of the magnetic flux in a transformer has-a)High reluctanceb...
The magnetic path length (MPL) is analogous to the length of a conductor for electrical current - increasing the MPL will increase its reluctance (magnetic 'resistance'). For a given magneto-motive force (MMF) in ampere-turns, the flux produced will depend upon the value of reluctance in ampere-turns per Weber and so an increase in reluctance will produce a decrease in flux. (See Hopkinson's Law) Permeability is analogous to 'conductivity' and depends upon the material as well as the path length and cross-sectional area. Increasing reluctance will decrease permeability.
Hence, the correct option is (D)
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The path of the magnetic flux in a transformer has-a)High reluctanceb)Low resistancec)High conductivityd)Low reluctanceCorrect answer is option 'D'. Can you explain this answer?
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