1a)Analyze the circuit in Figure 1, consider R = 10 k and C= 10 nF. Obtain the mathematical equation for the equivalent impedance seen by the generator as a function of frequency. By voltage division obtain the mathematical relationship for the voltage across the capacitor and resistor as a function of VF and frequency. Perform all the circuit analysis (voltages, impedances, currents, waveforms). 1b) For the conditions in the previous item, deduce the value of the frequency that satisfies |XC| = R. Vf f=4 kHz R=1 k0 C=10 nF Figure 1. Measurement circuit #1. ORC
1a)Analyze the circuit in Figure 1, consider R = 10 k and C= 10 nF. Obtain the mathematical equation for the equivalent impedance seen by the generator as a function of frequency. By voltage division obtain the mathematical relationship for the voltage across the capacitor and resistor as a function of VF and frequency. Perform all the circuit analysis (voltages, impedances, currents, waveforms). 1b) For the conditions in the previous item, deduce the value of the frequency that satisfies |XC| = R. Vf f=4 kHz R=1 k0 C=10 nF Figure 1. Measurement circuit #1. ORC
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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I need help with this two-part problem please :)
.
Transcribed Image Text:1a)Analyze the circuit in Figure 1, consider R = 10
kQ and C = 10 nF. Obtain the mathematical
equation for the equivalent impedance seen by
the generator as a function of frequency. By
voltage division obtain the mathematical
relationship for the voltage across the capacitor
and resistor as a function of VF and frequency.
Perform all the circuit analysis (voltages,
impedances, currents, waveforms).
1b) For the conditions in the previous item,
deduce the value of the frequency that satisfies
|XC| = R.
Vf
f=4 kHz
R=1 kΩ
C=10 nF
Figure 1. Measurement circuit #1.
Y
X
ORC
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