Q9 An RL circuit is powered by a 25 V power supply. The circuit consists of the power supply in series with R1 (3 kOmh) and L1 (90 mH).What is the maximum circuit current at 2 minutes?O A. 0.8 AO B. Cannot be determinedOC 8.3 mAO D.0 - There is no current flowing after 2 minutesO E. 0.25 A An RC circuit is powered by an AC power supply of 120 VRMS.The circuit consists of a series RC circuit consisting of R1 (500 Omhs) and C1 (20 micro-Farads).Determine what will happen to the total impedance of the circuit if the frequency is increased.O A. Remain the sameB. Increases during charge phase, decreases during discharge phaseC. Decreases during charge phase, increases during discharge phaseD. IncreaseE. Decrease

**As per the Bartleby guidelines, since both the questions are different I am allowed to do only…

An RL circuit is powered by a 25 V power supply. The circuit consists of the power supply in series with R1 (3 kOmh) and L1 (90 mH) What is the maximum circuit current at 2 minutes? OA.0.8A O B. Cannot be determined OC 8.3 mA O D.0 - There is no current flowing after 2 minutes O E. 0.25 A

An RL circuit is powered by a 25 V power supply. The circuit consists of the power supply in series with R1 (3 kOmh) and L1 (90 mH) What is the maximum circuit current at 2 minutes? OA.0.8A O B. Cannot be determined OC 8.3 mA O D.0 - There is no current flowing after 2 minutes O E. 0.25 A

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Question

An RL circuit is powered by a 25 V power supply. The circuit consists of the power supply in series with R1 (3 kOmh) and L1 (90 mH).
What is the maximum circuit current at 2 minutes?
O A. 0.8 A
O B. Cannot be determined
OC 8.3 mA
O D.0 - There is no current flowing after 2 minutes
O E. 0.25 A

An RC circuit is powered by an AC power supply of 120 VRMS.
The circuit consists of a series RC circuit consisting of R1 (500 Omhs) and C1 (20 micro-Farads).
Determine what will happen to the total impedance of the circuit if the frequency is increased.
O A. Remain the same
B. Increases during charge phase, decreases during discharge phase
C. Decreases during charge phase, increases during discharge phase
D. Increase
E. Decrease

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