A coil that is wound around an iron bar with 5 m length, and are of 2.5 m2, creates a field intensity of 800 At/m. If the reluctance of the coil is 4x103 At/Wb, calculate for the coil's (a) permeability, (b) relative permeability, (c) magnetomotive force, (d) magnetic flux, and (e) the magnetic flux density.
A coil that is wound around an iron bar with 5 m length, and are of 2.5 m2, creates a field intensity of 800 At/m. If the reluctance of the coil is 4x103 At/Wb, calculate for the coil's (a) permeability, (b) relative permeability, (c) magnetomotive force, (d) magnetic flux, and (e) the magnetic flux density.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Transcribed Image Text:1. A coil that is wound around an iron bar with 5 m length, and are of 2.5 m2, creates a
field intensity of 800 At/m. If the reluctance of the coil is 4x103 At/Wb, calculate for
the coil's (a) permeability, (b) relative permeability, (c) magnetomotive force, (d)
magnetic flux, and (e) the magnetic flux density.
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