[" Example "5.10" A solenoid has a core ...

[" Example "5.10" A solenoid has a core of a material with relative "],[" permeability "400." The windings of the solenoid are insulated from the "],[" core and carry a current of "2A" .If the number of turns is "1000" per "],[" metre,calculate (a) "H,(b)M,(c)" .If the number of turns is "1000" per "],[" metre,calculate (a) "H,(b)M,(c)" .If the number of turns is "1000" per "],[" and "]

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A solenoid has a core of a material with relative permeability of 500. The windings of the solenoid are insulated from the core and carry a current of 2 A. If the number of turns is 1000 per meter, then magnetisation is

A solenoid has a core of a material with relative permeability 400. The windings of the solenoid are insulated from the core and carry of 2A. If the number of turns is 1000 per metre, calculate H.

A solenoid has a core of a material with relative permeability 400. The windings of the solenoid are insulated from the core and carry of 2A. If the number of turns is 1000 per metre, calculate M.

A solenoid has a core of a material with relative permeability 400. The windings of the solenoid are insulated from the core and carry of 2A. If the number of turns is 1000 per metre, calculate B.

A solenoid has a core of a material with relative permeability 400. The windings of the solenoid are insulated from the core and carry a current of 2A. If the number of turns is 1000 per metre, calculate (a) H, (b) M, (c) B and (d) the magnetising current I_(m) .

A solenoid has a core of material with relative permeability 400. The winding of the solenoid are insulted from the core and carry a current of 2A. If the number of turns is 1000 per metre, calculate (a) H, (b) M, (c) B and (d) the magnetising current i_(m) .

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