Suppose you have a long straight wire AB, carrying a current in the direction shown in the figure. Below this wire is a rectangular loop 20 cm long and 5 cm wide, carrying a current of equal magnitude to the wire, where the long sides are parallel to the wire. The wire and the loop both have a linear density equal to 0.0125 kg/m. The separation between the upper long side of the loop and the wire is 1 cm. Calculate the force (magnitude and direction) in terms of ?, in each of the segments of the loop, generated by the magnetic field of the wire.

Suppose you have a long straight wire AB, carrying a current in the direction shown in the figure. Below this wire is a rectangular loop 20 cm long and 5 cm wide, carrying a current of equal magnitude to the wire, where the long sides are parallel to the wire. The wire and the loop both have a linear density equal to 0.0125 kg/m. The separation between the upper long side of the loop and the wire is 1 cm. Calculate the force (magnitude and direction) in terms of ?, in each of the segments of the loop, generated by the magnetic field of the wire.

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Calculate the force (magnitude and direction) in terms of ?, in each of the segments of the loop, generated by the magnetic field of the wire.

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