4) The magnetic circuit of Figure 1 consists of rings of magnetic material in a stack of heigh h. The rings have inner radius if Ri and the outer radius Ro. Assume that the iron is of infinite permeability (µ→∞) and neglect the effects of For: magnetic Ri= 3.2 cm, Ro = Calculate: i) ii) iii) iv) v) leakage and 4.1 cm, h= 1.8 cm, and g = fringing. 0.15 cm, N = 72 turns The mean core length lc and the cross-sectional area Ac. The reluctance pf the core Rc and the gap Rg. The inductance L. Current i required to operate at an air-gap flux density of Bg 1.25 T. The corresponding flux linkages λ of the coil. N turns R 004 8 Figure 1 Magnetic Circuit

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4) The magnetic circuit of Figure 1 consists of rings of magnetic material in a stack of heigh h. The rings have inner radius if Ri and the outer radius Ro. Assume that the iron is of infinite permeability (µ→∞) and neglect the effects of For: magnetic Ri= 3.2 cm, Ro = Calculate: i) ii) iii) iv) v) leakage and 4.1 cm, h= 1.8 cm, and g = fringing. 0.15 cm, N = 72 turns The mean core length lc and the cross-sectional area Ac. The reluctance pf the core Rc and the gap Rg. The inductance L. Current i required to operate at an air-gap flux density of Bg 1.25 T. The corresponding flux linkages λ of the coil.

Transcribed Image Text:

N turns R 004 8 Figure 1 Magnetic Circuit