One long, straight wire, which we shall call Wire A, carries a current of lA = 0.652 A. Wire A lies a distance d = 0.260 m to the left of a square loop with sides L = 0.753 m in length, as shown in the figure below. The loop carries a current of 1 = 0.422 A in the direction indicated. Another long. straight wire, which we shall call Wire B, carries a current of lg = 1.17 A.. Wire B lies distance d = 0.260 m to the right of the square loop, as shown below. Find the magnitude and direction of the net force acting on the loop.

One long, straight wire, which we shall call Wire A, carries a current of lA = 0.652 A. Wire A lies a distance d = 0.260 m to the left of a square loop with sides L = 0.753 m in length, as shown in the figure below. The loop carries a current of 1 = 0.422 A in the direction indicated. Another long. straight wire, which we shall call Wire B, carries a current of lg = 1.17 A.. Wire B lies distance d = 0.260 m to the right of the square loop, as shown below. Find the magnitude and direction of the net force acting on the loop.

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Question

One long, straight wire, which we shall call Wire A, carries a current of IA = 0.652 A. Wire A lies a
distance d = 0.260 m to the left of a square loop with sides L = 0.753 m in length, as shown in the
figure below. The loop carries a current of 1 = 0.422 A in the direction indicated. Another long.
straight wire, which we shall call Wire B, carries a current of lg 1.17 A.. Wire B lies distance d =
0.260 m to the right of the square loop, as shown below. Find the magnitude and direction of the
net force acting on the loop.
IA
I
Ig

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