The average flux path length of the core given in the figure is 50 cm. The length of the air gap is 0.05 cm. The cross-sectional area of the core is 15 cm, the relative magnetic permeability of the core is 5000, and the number of turns of the coil wound on the core is 500. The fraying effect in the air gap has been neglected. Since the current flowing through the coil is 4 A, what is the value of the magnetic flux?
The average flux path length of the core given in the figure is 50 cm. The length of the air gap is 0.05 cm. The cross-sectional area of the core is 15 cm, the relative magnetic permeability of the core is 5000, and the number of turns of the coil wound on the core is 500. The fraying effect in the air gap has been neglected. Since the current flowing through the coil is 4 A, what is the value of the magnetic flux?
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The average flux path length of the core given in the figure is 50 cm. The length of the air gap is 0.05 cm. The cross-sectional area of the core is 15 cm, the relative magnetic permeability of the core is 5000, and the number of turns of the coil wound on the core is 500. The fraying effect in the air gap has been neglected. Since the current flowing through the coil is 4 A, what is the value of the magnetic flux?
Transcribed Image Text:degeri nedir?
N= 500 sarım
0.05 cm
A= 15 cm2
1, = 50 cm
B
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