Assume that i(t) = t(12 - t) A (tin seconds). Calculate the flux <l>(t), at time t, of B through a rectangle of dimensions L x H = 3 x 2 m whose top and bottom edges are parallel to the wire and whose bottom edge is located d = 0.5 m above the wire, similar to Figure 13(B). Then use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t.
Assume that i(t) = t(12 - t) A (tin seconds). Calculate the flux <l>(t), at time t, of B through a rectangle of dimensions L x H = 3 x 2 m whose top and bottom edges are parallel to the wire and whose bottom edge is located d = 0.5 m above the wire, similar to Figure 13(B). Then use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t.
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Assume that i(t) = t(12 - t) A (tin seconds). Calculate the flux <l>(t), at time t, of B through a rectangle of dimensions L x H = 3 x 2 m whose top and bottom edges are parallel to the wire and whose bottom edge is located d = 0.5 m above the wire, similar to Figure 13(B). Then use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t.
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