30 cm 5 cm 5 cm B (Tesla) 73 S/ mnging effect in the air gap increases the effective cross-sectional area of the air gap by70. Figure 2 shows magnetization curves of various materials. 5 cm 30 cm 5 cm...


30 cm<br>5 cm<br>5 cm<br>B (Tesla)<br>73 S/<br>mnging effect in the air gap increases the effective cross-sectional area of the air gap by70.<br>Figure 2 shows magnetization curves of various materials.<br>5 cm<br>30 cm<br>5 cm<br>lag = 0.03 cm<br>N turns<br>Figure 1: Cast steel core.<br>1.5<br>1 25<br>CAST STEEL<br>075<br>CASTIRON<br>0-25<br>000 0<br>H(AVm)<br>COO<br>Figure 2: Magnetization curves.<br>

Extracted text: 30 cm 5 cm 5 cm B (Tesla) 73 S/ mnging effect in the air gap increases the effective cross-sectional area of the air gap by70. Figure 2 shows magnetization curves of various materials. 5 cm 30 cm 5 cm lag = 0.03 cm N turns Figure 1: Cast steel core. 1.5 1 25 CAST STEEL 075 CASTIRON 0-25 000 0 H(AVm) COO Figure 2: Magnetization curves.
(@)<br>()<br>Draw the equivalent magnetic circuit of Figure I. Label all parameters.<br>Calculate the magnetomotive force required to create a magnetic flux density of 0.5 T<br>in the top leg of the cast steel core.<br>

Extracted text: (@) () Draw the equivalent magnetic circuit of Figure I. Label all parameters. Calculate the magnetomotive force required to create a magnetic flux density of 0.5 T in the top leg of the cast steel core.

Jun 11, 2022
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