1-14. A two-legged magnetic core with an air gap is shown in Figure P1-11. The depth of the core is 5 cm, the length of the air gap in the core is 0.07 cm, and the number of turns on the coil is 500. The magnetization curve of the core material is shown in Figure Pl-9. Assume a 5 percent increase in effective air-gap area to account for fringing. How much current is required to produce an air-gap flux density of 0.5 T? What are the flux densities of the four sides of the core at that current? What is the total flux present in the air gap?

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A two-legged magnetic core with an air gap is shown in Figure P1-11. The
depth of the core is 5 cm, the length of the air gap in the core is 0.07 cm,
and the number of turns on the coil is 500. The magnetization curve of
the core material is shown in Figure PI-9. Assume a 5 percent increase in
effective air-gap area to account for fringing. How much current is required
to produce an air-gap flux density of 0.5 T? What are the flux densities of
the four sides of the core at that current? What is the total flux present in
the air gap?
1-14.
Figure P1-11 I The core of Problem 1-14.
10 cm
N= 300 turns
0.07 cm
30 cm
10 cm
30cm
10 cm
15 cm
Depth =5 cm
Transcribed Image Text:A two-legged magnetic core with an air gap is shown in Figure P1-11. The depth of the core is 5 cm, the length of the air gap in the core is 0.07 cm, and the number of turns on the coil is 500. The magnetization curve of the core material is shown in Figure PI-9. Assume a 5 percent increase in effective air-gap area to account for fringing. How much current is required to produce an air-gap flux density of 0.5 T? What are the flux densities of the four sides of the core at that current? What is the total flux present in the air gap? 1-14. Figure P1-11 I The core of Problem 1-14. 10 cm N= 300 turns 0.07 cm 30 cm 10 cm 30cm 10 cm 15 cm Depth =5 cm
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