Question (3) In the circuit shown below, e(t) = √2 100 sin 40t volts. Find out: d) The total circuit impedance (ZT). e) The total current [i(t)] in time domain. f) The branch current [i, (t)] in time domain. g) The power factor (PF) of the circuit. h) The total power (PT) absorbed in the circuit. [Use series/parallel method]. 3Q 0.1 H 40 i(t) w www i₁(t) 30 ●(t) +0 0.00625 F ww 0.2 H 0.005 F www

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Question (3)
In the circuit shown below, e(t) = √2 100 sin 40t volts. Find out:
d) The total circuit impedance (ZT).
e) The total current [i(t)] in time domain.
f) The branch current [i, (t)] in time domain.
g) The power factor (PF) of the circuit.
h) The total power (Pr) absorbed in the circuit. [Use series/parallel method].
3Q
0.1 H
i(t)
40
0.2 H
(t)
0.005 F
30
0.00625 F
Transcribed Image Text:Question (3) In the circuit shown below, e(t) = √2 100 sin 40t volts. Find out: d) The total circuit impedance (ZT). e) The total current [i(t)] in time domain. f) The branch current [i, (t)] in time domain. g) The power factor (PF) of the circuit. h) The total power (Pr) absorbed in the circuit. [Use series/parallel method]. 3Q 0.1 H i(t) 40 0.2 H (t) 0.005 F 30 0.00625 F
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