Q. # 2: A circular loop of radius “r" is fixed to a rotation axis along the z-direction, as shown in Fig. 2. so that the plane of the loop is always perpendicular to the xy plane. The loop is rotating about the constant angular velocity “QL" directed along the z-axis; at t = 0, the loop lies in the zy plane. Given a uniform and constant externally magnetic field B = B(cos a į + sin a i), evaluate the magnetic flux øm (t) through the loop and emf induced in the loop. 1odt
Q. # 2: A circular loop of radius “r" is fixed to a rotation axis along the z-direction, as shown in Fig. 2. so that the plane of the loop is always perpendicular to the xy plane. The loop is rotating about the constant angular velocity “QL" directed along the z-axis; at t = 0, the loop lies in the zy plane. Given a uniform and constant externally magnetic field B = B(cos a į + sin a i), evaluate the magnetic flux øm (t) through the loop and emf induced in the loop. 1odt
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Transcribed Image Text:Q. # 2: A circular loop of radius “r" is fixed to a rotation axis along the z-direction, as shown in
Fig. 2. so that the plane of the loop is always perpendicular to the xy plane. The loop is rotating
about the constant angular velocity “QL" directed along the z-axis; at t = 0, the loop lies in the zy
plane. Given a uniform and constant externally magnetic field B = B(cos a į + sin a i), evaluate
the magnetic flux øm (t) through the loop and emf induced in the loop.
1odt
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