An infinitely long single wire with current I1 = 5.5 A and a rectangular wire loop with current I2 = 0.25 A are in the same plane as shown. The dimensions of the loop are a = 0.033 m and b = 0.145 m. The infinite wire is parallel to side AD of the loop and at a distance d = 0.19 m from it. Part a) Calculate the numerical value of Fad in N. Part b) Calculate the numerical value of Fbc in N. part c) Calculate the numerical value of the sum of the forces F = Fad - Fbc on the infinite wire in N.

An infinitely long single wire with current I1 = 5.5 A and a rectangular wire loop with current I2 = 0.25 A are in the same plane as shown. The dimensions of the loop are a = 0.033 m and b = 0.145 m. The infinite wire is parallel to side AD of the loop and at a distance d = 0.19 m from it. Part a) Calculate the numerical value of Fad in N. Part b) Calculate the numerical value of Fbc in N. part c) Calculate the numerical value of the sum of the forces F = Fad - Fbc on the infinite wire in N.

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Question

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An infinitely long single wire with current I₁ = 5.5 A and a rectangular wire loop with current I₂ = 0.25 A are in the same plane as shown. The dimensions of the loop are a = 0.033 m and b = 0.145 m. The infinite wire is parallel to side AD of the loop and at a distance d = 0.19 m from it.

Part a) Calculate the numerical value of F_ad in N.

Part b) Calculate the numerical value of F_bc in N.

part c) Calculate the numerical value of the sum of the forces F = F_ad - F_bc on the infinite wire in N.