*** 25. An inductor with a self-inductance of 4 H and an internal resistance of 1.2 is con- nected to a circuit in which there is a 20-amp current flowing in the direction shown, and the current is decreasing at an instantaneous rate of 80 A/s. What is the voltage difference across the inductor and which side, A or B, is at the higher potential? [Hint: Be careful with the directions of voltage differences.]

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*not graded, just a textbook practice problem. Thank you!!

*** 25. An inductor with a self-inductance of 4 H and an internal resistance of 1.2 2 is con-
A
nected to a circuit in which there is a 20-amp current flowing in the direction shown, and the
current is decreasing at an instantaneous rate of 80 A/s. What is the voltage difference across
the inductor and which side, A or B, is at the higher potential? [Hint: Be careful with the
directions of voltage differences.]
I= 20 A
20.4 *** 26'. Two holes are cut in the center of the circular plates of a parallel plate capacitor,
Transcribed Image Text:*** 25. An inductor with a self-inductance of 4 H and an internal resistance of 1.2 2 is con- A nected to a circuit in which there is a 20-amp current flowing in the direction shown, and the current is decreasing at an instantaneous rate of 80 A/s. What is the voltage difference across the inductor and which side, A or B, is at the higher potential? [Hint: Be careful with the directions of voltage differences.] I= 20 A 20.4 *** 26'. Two holes are cut in the center of the circular plates of a parallel plate capacitor,
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