Part A - Practice Problem: Let's look at a simple application of Faraday's law. In (Figure 1), the magnetic field in the region between the poles of the electromagnet is uniform at any time but is increasing at the rate Suppose we change the apparatus so that the magnetic field increases at a rate of 0.19 T/s, the area of the conducting loop in the field is 0.020 m , and the of 0.020 T/s. The area of the conducting loop in the field is 120 total circuit resistance is 6.6 $2 . Find the magnitude of the induced emf. cm , and the total circuit resistance, including the meter, is Express your answer in millivolts. 5.0 0. Find the magnitudes of the induced emf and the induced current in the circuit. IVO AEQ ? = 3 mV Submit Request Answer Figure