A 3.7 mH inductor is initially connected to a 4.6 V battery at t D0 through a 3.0 Q resistor. Once the inductor is fully energized, the battery is removed and the 3.0 O resistor is connected between the two terminals of the inductor. Find the current flowing through the resistor 18.0 usec after the inductor begins to be de-energized.
A 3.7 mH inductor is initially connected to a 4.6 V battery at t D0 through a 3.0 Q resistor. Once the inductor is fully energized, the battery is removed and the 3.0 O resistor is connected between the two terminals of the inductor. Find the current flowing through the resistor 18.0 usec after the inductor begins to be de-energized.
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![A 3.7 mH inductor is initially connected to a 4.6 V battery at t 0 through a 3.0 Q resistor. Once the inductor is
fully energized, the battery is removed and the 3.0 Q resistor is connected between the two terminals of the
inductor. Find the current flowing through the resistor 18.0 usec after the inductor begins to be de-energized.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2c55ea2f-b251-4764-8fcb-45c7bdedfea0%2Fd0abdab8-88b6-4097-a44a-69204d6b4d9b%2Frokznnt_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A 3.7 mH inductor is initially connected to a 4.6 V battery at t 0 through a 3.0 Q resistor. Once the inductor is
fully energized, the battery is removed and the 3.0 Q resistor is connected between the two terminals of the
inductor. Find the current flowing through the resistor 18.0 usec after the inductor begins to be de-energized.
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