An infinitely long filamentary wire and two rectangular loops are shown in Figure 1. The filamentary wire carries a current of I = 2.5 A in +z-direction. Determine the magnetic flux, y, through the Loop 1. Loop 2 7 4. Loop 1 2 Infinite line current 3 I= 2.5 A Unit: m Figure 1 a. 2.749 x 106 wb b. 0.608 х106 Wь C. O Wb d. 1.265 x 106 Wb

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An infinitely long filamentary wire and two rectangular loops are shown in Figure 1. The
filamentary wire carries a current of I = 2.5 A in +z-direction. Determine the magnetic
flux, y, through the Loop 1.
Loop 2
7
4.
Loop 1
2
Infinite line current
3
I= 2.5 A
Unit: m
Figure 1
a. 2.749 x 106 wb
b. 0.608 х106 Wь
C. O Wb
d. 1.265 x 106 Wb
Transcribed Image Text:An infinitely long filamentary wire and two rectangular loops are shown in Figure 1. The filamentary wire carries a current of I = 2.5 A in +z-direction. Determine the magnetic flux, y, through the Loop 1. Loop 2 7 4. Loop 1 2 Infinite line current 3 I= 2.5 A Unit: m Figure 1 a. 2.749 x 106 wb b. 0.608 х106 Wь C. O Wb d. 1.265 x 106 Wb
A circular loop located at x + y² = 9, z = 0 carries a
direct current of 10A along ap. determine H at points
(0,0,4), (0,0,-4)
a. H(0, 0, -4) = 0.36(-a,) A/m and H(0, 0, 4) = 0.36a, A/m
b. H(0, 0, -4) = 0.36a, A/m and H(0, 0, 4) = 0.36(-a;) A/m
c. H(0, 0, -4) = 0.36(-a,) A/m and H(0, 0, 4) = 0.36a, A/m
d. H(0, 0, -4) = 0.36a, A/m and H(0, 0, 4) = 0.36a, A/m
Transcribed Image Text:A circular loop located at x + y² = 9, z = 0 carries a direct current of 10A along ap. determine H at points (0,0,4), (0,0,-4) a. H(0, 0, -4) = 0.36(-a,) A/m and H(0, 0, 4) = 0.36a, A/m b. H(0, 0, -4) = 0.36a, A/m and H(0, 0, 4) = 0.36(-a;) A/m c. H(0, 0, -4) = 0.36(-a,) A/m and H(0, 0, 4) = 0.36a, A/m d. H(0, 0, -4) = 0.36a, A/m and H(0, 0, 4) = 0.36a, A/m
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