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7.8: Exercises
https://eng.libretexts.org/Workbench/Introduction_to_Circuit_Analysis/07%3A_1st_Order_RC_RL_Circuit/7.08%3A_Exercises
Given the circuit shown in Figure 9.7.2 , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure 9.7.13 , det...Given the circuit shown in Figure 9.7.2 , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure 9.7.13 , determine the inductor voltage and circulating current 50 nanoseconds and 100 milliseconds after the switch is thrown. Determine the time constant and the time required to reach steady-state for the circuit shown in Figure 9.7.14 , switch position 1.
8.8: Exercises
https://eng.libretexts.org/Courses/Canada_College/Circuits_and_Devices/08%3A_Transient_Behavior-_First_and_Second_Order_Circuits/8.08%3A_Exercises
Given the circuit shown in Figure $\PageIndex{2}$ , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure \...Given the circuit shown in Figure $\PageIndex{2}$ , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure $\PageIndex{13}$ , determine the inductor voltage and circulating current 50 nanoseconds and 100 milliseconds after the switch is thrown. Determine the time constant and the time required to reach steady-state for the circuit shown in Figure $\PageIndex{14}$ , switch position 1.
6.2.7: Exercises
https://eng.libretexts.org/Courses/Canada_College/Circuits_and_Devices%3A_Laboratory/06%3A_First_Order_Circuits/6.02%3A_Inductors/6.2.07%3A_Exercises
Given the circuit shown in Figure 9.7.2 , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure 9.7.13 , det...Given the circuit shown in Figure 9.7.2 , determine the inductor voltage and circulating current 200 milliseconds and 2 seconds after the switch is thrown. For the circuit shown in Figure 9.7.13 , determine the inductor voltage and circulating current 50 nanoseconds and 100 milliseconds after the switch is thrown. Determine the time constant and the time required to reach steady-state for the circuit shown in Figure 9.7.14 , switch position 1.

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