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Refer to the figure below. e(t)=200 sin(3141) V 3.25 V- 10 mA -35° R=400 ww V Calculate the value of the capacitance in the circuit. 15⁰ The waveforms of the supply voltage e(t) and current i(t) of a circuit are shown in the figure below. i (t) XL = 36 Q Determine the circuit impedance ZT. Vc X-120 e(t) Refer to the figure below. e(t)-200 sin(3141) V R=400 ww Determine the voltage Vc. X=360 Ve X = 120

Refer to the figure below. e(t)=200 sin(3141) V 3.25 V- 10 mA -35° R=400 ww V Calculate the value of the capacitance in the circuit. 15⁰ The waveforms of the supply voltage e(t) and current i(t) of a circuit are shown in the figure below. i (t) XL = 36 Q Determine the circuit impedance ZT. Vc X-120 e(t) Refer to the figure below. e(t)-200 sin(3141) V R=400 ww Determine the voltage Vc. X=360 Ve X = 120

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Refer to the figure below. e(t)=200 sin(3141) V 3.25 V- 10 mA -35° R=400 ww V Calculate the value of the capacitance in the circuit. 15⁰ The waveforms of the supply voltage e(t) and current i(t) of a circuit are shown in the figure below. i (t) XL = 36 Q Determine the circuit impedance ZT. Vc X 120 e(t) Refer to the figure below. e(t)-200 sin(3141) V R = 400 ww Determine the voltage Vc. X₁ = 36 Q Ve Xc = 120
Transcribed Image Text:Refer to the figure below. e(t)=200 sin(3141) V 3.25 V- 10 mA -35° R=400 ww V Calculate the value of the capacitance in the circuit. 15⁰ The waveforms of the supply voltage e(t) and current i(t) of a circuit are shown in the figure below. i (t) XL = 36 Q Determine the circuit impedance ZT. Vc X 120 e(t) Refer to the figure below. e(t)-200 sin(3141) V R = 400 ww Determine the voltage Vc. X₁ = 36 Q Ve Xc = 120
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