For the circuit in Problem 5, calculate the final current flowing through the inductor if the initial current through it, ir(0) = 0Amps for DC steady state. Put your values in Amps in the box below without units. Also, round off the decimal to three decimal places if needed. For the circuit in Problem 5, calculate the equivalent Thevenin voltage, Voc, in Volts as for the following circuit. Put your values in N in box below. Round off the decimals to three places if needed. Rth www C Voc

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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For the circuit in Problem 5, calculate the final current flowing through the inductor if the initial current through it,
ir(0) = 0Amps for DC steady state.
Put your values in Amps in the box below without units. Also, round off the decimal to three decimal places if needed.
For the circuit in Problem 5, calculate the equivalent Thevenin voltage, Voc, in Volts as for the following circuit.
Put your values in N in box below. Round off the decimals to three places if needed.
Rth
www
C
Voc
Transcribed Image Text:For the circuit in Problem 5, calculate the final current flowing through the inductor if the initial current through it, ir(0) = 0Amps for DC steady state. Put your values in Amps in the box below without units. Also, round off the decimal to three decimal places if needed. For the circuit in Problem 5, calculate the equivalent Thevenin voltage, Voc, in Volts as for the following circuit. Put your values in N in box below. Round off the decimals to three places if needed. Rth www C Voc
5. For the following circuit. V, = 40V, R1 = 180, R2 = 182, R3 = 182, R4 = 9N, R5 = 9N, R$ = 3N, L = 5mH and
C = 10µF.
%3D
%3D
Switch
R4
www
R6
R2
www
Vs
R3
Rs
If the switch is at position a for a long time, calculate the R-L time constant for the inductor.
Please enter your values in MILLISECOND in the box below without units. Also, please wound of the decimal to three
places if necessary.
0.278
www
www
www
Transcribed Image Text:5. For the following circuit. V, = 40V, R1 = 180, R2 = 182, R3 = 182, R4 = 9N, R5 = 9N, R$ = 3N, L = 5mH and C = 10µF. %3D %3D Switch R4 www R6 R2 www Vs R3 Rs If the switch is at position a for a long time, calculate the R-L time constant for the inductor. Please enter your values in MILLISECOND in the box below without units. Also, please wound of the decimal to three places if necessary. 0.278 www www www
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