Question: Two concentric loops of wire are in the same plane. The inner loop has radius a = 1.25 cm and resistance R1 = 8.0

Two concentric loops of wire are in the same plane. The inner loop has radius a = 1.25 cm and resistance Rj = 8.0 12. The out

Part B Assuming that the outer loops magnetic field is fairly uniform (with a magnitude equal to the field value at the cent

Two concentric loops of wire are in the same plane. The inner loop has radius a = 1.25 cm and resistance R1 = 8.0 N. The outer loop has radius b = 99 cm and resistance Ro = 325 N. (Figure 1) (Note: The figure is not to scale.) When the outer loop is connected to a battery (not shown), counterclockwise current flows through it. The battery's emf varies with time given by the equation %3D = 100 where E is in volts when t is in seconds. Figure 1 of 1 lo Part B Assuming that the outer loop's magnetic field is fairly uniform (with a magnitude equal to the field value at the center of the loop) over the much smaller inner loop's area, what is the amount of induced current flowing through the inner loop at time 0.50 s ? Express your answer in nanoamps (nA) using three significant figures. View Available Hint(s) ? IXI X10" b nA Ind = Submit Previous Answers

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