Figure 2 shows a magnetic material formed in a ring shape to investigate the phenomenon of residual flux density and coercive force induced. By using the coil; O Figure 2 (i) construct a circuit diagram to investigate the phenomenon. (ii) investigate the residual flux density induced. (iii) with the aid of a suitable diagram, explain the phenomenon of coercive force as the result of the residual flux density.

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Figure 2 shows a magnetic material formed in a ring shape to investigate the
phenomenon of residual flux density and coercive force induced. By using the coil;
Figure 2
(i)
construct a circuit diagram to investigate the phenomenon.
(ii) investigate the residual flux density induced.
(iii) with the aid of a suitable diagram, explain the phenomenon of cocrcive force as
the result of the residual flux density.
Transcribed Image Text:Figure 2 shows a magnetic material formed in a ring shape to investigate the phenomenon of residual flux density and coercive force induced. By using the coil; Figure 2 (i) construct a circuit diagram to investigate the phenomenon. (ii) investigate the residual flux density induced. (iii) with the aid of a suitable diagram, explain the phenomenon of cocrcive force as the result of the residual flux density.
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