The round-shaped magnetic circuit is called the toroid. Such a magnetic circuit is given below. N = 250 turns of coil winding the entire toroid. The magnetic material is manufactured by combining silicon-doped layers to steel. In material geometry, r = 20 cm and r 25 cm. The cross-sectional area (S) of the toroid is circular. 2.54 A current flows through the coil. The magnetic flux is homogeneously distributed on the average path indicated by 1 and all over the toroid. a) Calculate the magnetic flux density of the toroid on the I average path. b) Calculate the magnetic flux in the toroid. c) Calculate the annealing flux of the coil.
The round-shaped magnetic circuit is called the toroid. Such a magnetic circuit is given below. N = 250 turns of coil winding the entire toroid. The magnetic material is manufactured by combining silicon-doped layers to steel. In material geometry, r = 20 cm and r 25 cm. The cross-sectional area (S) of the toroid is circular. 2.54 A current flows through the coil. The magnetic flux is homogeneously distributed on the average path indicated by 1 and all over the toroid. a) Calculate the magnetic flux density of the toroid on the I average path. b) Calculate the magnetic flux in the toroid. c) Calculate the annealing flux of the coil.
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The round-shaped magnetic circuit is called the toroid. Such a magnetic circuit is given below. N = 250 turns of coil winding the entire toroid. The magnetic material is manufactured by combining silicon-doped layers to steel. In material geometry, r = 20 cm and r 25 cm. The cross-sectional area (S) of the toroid is circular. 2.54 A current flows through the coil.
The magnetic flux is homogeneously distributed on the average path indicated by 1 and all over the toroid.
- a) Calculate the magnetic flux density of the toroid on the I average path.
- b) Calculate the magnetic flux in the toroid.
- c) Calculate the annealing flux of the coil.
Transcribed Image Text:The round-shaped magnetic circuit is called the toroid. Such a magnetic circuit is given below. N = 250
turns of coil winding the entire toroid. The magnetic material is manufactured by combining silicon-
doped layers to steel. In material geometry, r = 20 cm and r 25 cm. The cross-sectional area (S) of the
toroid is circular. 2.54 A current flows through the coil.
The magnetic flux is homogeneously distributed on the average path indicated by 1 and all over the
toroid.
a) Calculate the magnetic flux density of the toroid on the I average path.
b) Calculate the magnetic flux in the toroid.
c) Calculate the annealing flux of the coil.
d) Calculate the reluctance of the toroid.
e) Calculate the magnetic permeability of the magnetic material.
f) Calculate the inductance of the coil.
В (Tesa)
S
Id
1,25
N
H (As/m)
450
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