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Consider the circuit shown in the figure. It consists of three ideal batteries, three resistors, and an ideal inductor. Initially switch S is open and there is no current in the inductor. Switch S closed at time t = 0. Find the energy stored in the inductor, a long time after the switch S is closed. R2 R1 & = 3V, E2 = 12V, &, = 9V, R, = 20, R, = 42, R, = 60 ve L = 0.2H %3D %3D |3D %3D

Consider the circuit shown in the figure. It consists of three ideal batteries, three resistors, and an ideal inductor. Initially switch S is open and there is no current in the inductor. Switch S closed at time t = 0. Find the energy stored in the inductor, a long time after the switch S is closed. R2 R1 & = 3V, E2 = 12V, &, = 9V, R, = 20, R, = 42, R, = 60 ve L = 0.2H %3D %3D |3D %3D

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Consider the circuit shown in the figure. It consists of three ideal batteries, three resistors, and an R2 R1 ideal inductor. Initially switch S is open and there is no current in the inductor. Switch S closed at time t = 0. Find the energy stored in the inductor, a long time after the switch S is dlosed. E = 3V, E2 = 12V, E, = 9V, R, = 20. R, = 402, R, = 60 ve L = 0.2H %3D %3D %3D
Transcribed Image Text:Consider the circuit shown in the figure. It consists of three ideal batteries, three resistors, and an R2 R1 ideal inductor. Initially switch S is open and there is no current in the inductor. Switch S closed at time t = 0. Find the energy stored in the inductor, a long time after the switch S is dlosed. E = 3V, E2 = 12V, E, = 9V, R, = 20. R, = 402, R, = 60 ve L = 0.2H %3D %3D %3D
0.7J 0.9J C 0.5J 0.8J 0.6 J B.
Transcribed Image Text:0.7J 0.9J C 0.5J 0.8J 0.6 J B.
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