In the circuit of the figure neither the battery nor the inductor have appreciable resistance, and there is no current in the coil branch. Right after closing switch S: What is the potential difference across the 9.0 N resistor between e and b? 2. What is the instantaneous power supplied by the battery? 3. After the switch has been closed for a long time, how much energy is stored in the inductor? 4. How long does it take for the inductor to acquire half of its maximum current? 5. After a long time has elapsed after closing switch S, the proceed to open it (t = 0). Just at that moment, what is the potential difference between the ends of the inductor? 6. At what point, after opening the switch, is the current in the inductor equal? in the middle of its current at t = 0? 7,00 mH 2,00N a b. 3,00 2 9,002 5,00 N 5,00 N 11,0N 3,00 V 1,00 N S g h

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In the circuit of the figure neither the battery nor the inductor have appreciable resistance, and there is no current in the coil branch. Right after closing switch S: What is the potential difference across the 9.0 N resistor between e and b? 2. What is the instantaneous power supplied by the battery? 3. After the switch has been closed for a long time, how much energy is stored in the inductor? 4. How long does it take for the inductor to acquire half of its maximum current? 5. After a long time has elapsed after closing switch S, the proceed to open it (t = 0). Just at that moment, what is the potential difference between the ends of the inductor? 6. At what point, after opening the switch, is the current in the inductor equal? in the middle of its current at t = 0?

Transcribed Image Text:

7,00 mH 2,00N a b. 3,00 2 9,002 5,00 N 5,00 N 11,0N 3,00 V 1,00 N S g h