1. 2. Connect 3.5-V (rms) ac source across the circuit as shown. 1 Vc = E 3.5 Vrms 500 Hz 0° lc = 2. с :1µF 2 R 1002 Measure the voltage across the 1-μF capacitor and the current through it. 3 3. Connect channel A of the oscilloscope across the capacitor and channel B to the 10-02 resistor. 4. Draw the corresponding waveforms, the voltage across the capacitor and the voltage across the 10- resistor. Assume that the voltage across the 10-2 resistor, determine the phase relationship between voltage and current in a capacitive circuit.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Answer number 3

1.
2.
Connect 3.5-V (rms) ac source across the circuit as shown.
1
Vc =
E
3.5 Vrms
500 Hz
0°
lc =
Measure the voltage across the 1-μF capacitor and the current through it.
Time/Division:
C
1μF
2
R
>1002
3
3. Connect channel A of the oscilloscope across the capacitor and channel B to the 10-
resistor.
Volts/Division:
Phase relationship of current and voltage in a capacitive circuit:
The current leads the voltage by 90 deg.
4. Draw the corresponding waveforms, the voltage across the capacitor and the voltage across
the 10- resistor. Assume that the voltage across the 10- resistor, determine the phase
relationship between voltage and current in a capacitive circuit.
Transcribed Image Text:1. 2. Connect 3.5-V (rms) ac source across the circuit as shown. 1 Vc = E 3.5 Vrms 500 Hz 0° lc = Measure the voltage across the 1-μF capacitor and the current through it. Time/Division: C 1μF 2 R >1002 3 3. Connect channel A of the oscilloscope across the capacitor and channel B to the 10- resistor. Volts/Division: Phase relationship of current and voltage in a capacitive circuit: The current leads the voltage by 90 deg. 4. Draw the corresponding waveforms, the voltage across the capacitor and the voltage across the 10- resistor. Assume that the voltage across the 10- resistor, determine the phase relationship between voltage and current in a capacitive circuit.
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