A long wire extends along the x-axis and includes a circular loop in the xy-plane (as shown in the figure). A uniform magnetic field of magnitude 1.30 T is present in the region of the circular loop. The field is directed along the -z axis. At a particular moment in time, the radius of the loop is 5.2 cm. The loop is decreasing in size because the wire is being pulled both left and right along the x- axis such that the radius of the loop is decreasing at a constant rate of 0.70 cm/s. What emf is induced around the circular loop at that particular time? |6|= mV What is the magnitude of the rate of change of the induced emf at that same moment? de dt mV/s X × X × X X X × X Bin X х X X X X x
A long wire extends along the x-axis and includes a circular loop in the xy-plane (as shown in the figure). A uniform magnetic field of magnitude 1.30 T is present in the region of the circular loop. The field is directed along the -z axis. At a particular moment in time, the radius of the loop is 5.2 cm. The loop is decreasing in size because the wire is being pulled both left and right along the x- axis such that the radius of the loop is decreasing at a constant rate of 0.70 cm/s. What emf is induced around the circular loop at that particular time? |6|= mV What is the magnitude of the rate of change of the induced emf at that same moment? de dt mV/s X × X × X X X × X Bin X х X X X X x
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