**Post Lab:**For the lag circuit in Figure 6, determine the phase lag between the input voltage and the output voltage for each of the following frequencies:- (a) 1 Hz- (b) 100 Hz- (c) 1.0 kHz- (d) 10 kHz**Figure Explanation:**In Figure 6, a lag circuit is shown, consisting of a resistor (R) and a capacitor (C) in series. The resistor has a value of 3.9 kΩ, and the capacitor has a value of 0.039 μF. - The input voltage (\(V_{in}\)) is 1 V, represented as an AC voltage source.- The output voltage (\(V_{out}\)) is measured across the capacitor.This circuit is used to determine phase lag, which is a measure of how much the phase of the output voltage lags behind the input voltage at different frequencies. The phase lag is influenced by the reactance of the capacitor, which varies with frequency.

The given phase lag circuit is We need to find the phase lag between the input and output voltages…

1-For the lag circuit in Figure 6, determine the phase lag between the input voltage and the output voltage for each of the following frequencies: (a) 1 Hz (b) 100 Hz (c) 1.0 kHz (d) 10 kHz Vin IV R ww 3.9 ΚΩ Figure 6 41₁ C Vout 0.039 μF

1-For the lag circuit in Figure 6, determine the phase lag between the input voltage and the output voltage for each of the following frequencies: (a) 1 Hz (b) 100 Hz (c) 1.0 kHz (d) 10 kHz Vin IV R ww 3.9 ΚΩ Figure 6 41₁ C Vout 0.039 μF

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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Concept explainers

Capacitor

The capacitor is an element used to store electrical energy in the electrical field. A capacitor is a form of passive energy.

Question

**Post Lab:**

For the lag circuit in Figure 6, determine the phase lag between the input voltage and the output voltage for each of the following frequencies:
- (a) 1 Hz
- (b) 100 Hz
- (c) 1.0 kHz
- (d) 10 kHz

**Figure Explanation:**

In Figure 6, a lag circuit is shown, consisting of a resistor (R) and a capacitor (C) in series. The resistor has a value of 3.9 kΩ, and the capacitor has a value of 0.039 μF.

- The input voltage (\(V_{in}\)) is 1 V, represented as an AC voltage source.
- The output voltage (\(V_{out}\)) is measured across the capacitor.

This circuit is used to determine phase lag, which is a measure of how much the phase of the output voltage lags behind the input voltage at different frequencies. The phase lag is influenced by the reactance of the capacitor, which varies with frequency.

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Step 2: Finding the phase lag between the input and output voltages in general form.

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Step 3: a. Finding the phase lag between the input and output voltages for f = 1Hz.

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Step 4: b. Finding the phase lag between the input and output voltages for f = 100 Hz.

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Step 5: c. Finding the phase lag between the input and output voltages for f = 1.0 kHz.

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Step 6: d. Finding the phase lag between the input and output voltages for f = 10 kHz.

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