Laboratory Manual for Introductory Circuit Analysis
Laboratory Manual for Introductory Circuit Analysis
13th Edition
ISBN: 9780133923780
Author: Robert L. Boylestad, Gabriel Kousourou
Publisher: PEARSON
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Textbook Question
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Chapter 22, Problem 1P

  1. Determine the frequencies (in kHz) at the points indicated on the plot in Fig. 22.104(a).
  2. Determine the voltages (in mV) at the points indicated on the plot in Fig. 22.104(b).

Chapter 22, Problem 1P, Determine the frequencies (in kHz) at the points indicated on the plot in Fig. 22.104(a). Determine , example 1Chapter 22, Problem 1P, Determine the frequencies (in kHz) at the points indicated on the plot in Fig. 22.104(a). Determine , example 2

Expert Solution
Check Mark
To determine

(a)

The frequencies at the points indicated in the plot

Answer to Problem 1P

The frequencies at the points are 1.5kHz & 3.98kHz

Explanation of Solution

Given:

Laboratory Manual for Introductory Circuit Analysis, Chapter 22, Problem 1P , additional homework tip 1

Formula used:

The frequency at the point is calculated by

  value =103×10d1d2

Calculation:

The distance of the first point, d1=1.8

The distance between two vertical axes is d2=10

The value of the first point,

  value = 103× 10 d 1 d 2 = 103× 10 1.8 10 =1513.56=1.5kHz.

The value of the first point is 1.5kHz

The values of the second point is,

  value = 103× 10 d 1 d 2 = 103× 10 6 10 =3981.1=3.98kHz

The value of the second point is 3.98kHz

Conclusion:

Thus, the value of the first point is 1.5kHz and the value of the second point is 3.98kHz

Expert Solution
Check Mark
To determine

(b)

The voltages at the points indicated on the plot

Answer to Problem 1P

The voltage of the top point is 527.5mVand the bottom point is 181.7mV

Explanation of Solution

Given:

Laboratory Manual for Introductory Circuit Analysis, Chapter 22, Problem 1P , additional homework tip 2

Formula used:

The voltage at the point is calculated by

  vr=10(1+yr)

Calculation:

The total length of the vertical axis is,

  log10108log10101=1

Using a scale on the vertical axis, from the plot, we can find that the top and bottom points are at a fractionof total length of the vertical axis from the bottom.

  yr= 19.5 27yg=7 27

The voltage value of the top point is

  vr= 10 (1+ y r )= 10 (1+ 19.5 27 )=0.5275

The voltage of the top point is 527.5mV

The voltage value of the bottom point is

  vr= 10 (1+ y b )= 10 (1+ 7 27 )=0.1817

The voltage of the bottom point is 181.7mV

Conclusion:

Thus, the voltage of the top point is 527.5mVand the voltage of the bottom point is 181.7mV

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Chapter 22 Solutions

Laboratory Manual for Introductory Circuit Analysis

Ch. 22 - Determine the frequencies (in kHz) at the points...Ch. 22 - Determine log10 for each value of X. 100,000...Ch. 22 - Given N=log10 , determine for each value of N. 3...Ch. 22 - Determine loge for each value of X. a. 100,000 b....Ch. 22 - Determine log1048=log10(8)(6), and compare to...Ch. 22 - Determine log100.2=log1018/90, and compare to...Ch. 22 - Verify that log100.5 is equal to...Ch. 22 - Prob. 8PCh. 22 - Determine the number of bels that relate power...Ch. 22 - Prob. 10P
Ch. 22 - Prob. 11PCh. 22 - Determine the dBm level for an output power of...Ch. 22 - Find the dBu gain of an amplifier that raises the...Ch. 22 - Prob. 14PCh. 22 - If the sound pressure level is increased from...Ch. 22 - What is the required increase in acoustical power...Ch. 22 - Using semilog paper, plot XL versus frequency for...Ch. 22 - For the meter of Fig. 22.8, find the power...Ch. 22 - For the R-C low-pass filter in Fig. 22.105: Sketch...Ch. 22 - Prob. 20PCh. 22 - Design an R-Clow-pass filter to have a cutoff...Ch. 22 - For the low-pass filter in Fig. 22.107: Fig....Ch. 22 - For the R-C high-pass filter in Fig. 22.108:...Ch. 22 - For the network in Fig. 22.109: Determine...Ch. 22 - Design a high-pass R-C filter to have a cutoff or...Ch. 22 - For the high-pass filter in Fig. 22.110: Determine...Ch. 22 - For the band-pass filter in Fig. 22.111: Sketch...Ch. 22 - Design a band-pass filter such as the one...Ch. 22 - For the band-pass filter in Fig. 22.112...Ch. 22 - Prob. 30PCh. 22 - For the band-stop filter in Fig. 22.114: Determine...Ch. 22 - For the band-pass filter in Fig. 22.115: Determine...Ch. 22 - For the network in Fig. 22.45(a), if...Ch. 22 - Prob. 34PCh. 22 - For the low-pass T filter of Fig. 22.116: In...Ch. 22 - Prob. 36PCh. 22 - For the Butterworth filter of Fig. 22.118: Fig....Ch. 22 - Sketch the idealized Bode plot for Av=Vo/Vi for...Ch. 22 - Sketch the response of the magnitude of...Ch. 22 - Sketch the idealized Bode plot for Av=Vo/Vi for...Ch. 22 - Sketch the response of the magnitude of...Ch. 22 - Prob. 42PCh. 22 - Prob. 43PCh. 22 - For the filter in Fig. 22.125: Sketch the curve of...Ch. 22 - Prob. 45PCh. 22 - Prob. 46PCh. 22 - Prob. 47PCh. 22 - A bipolar transistor amplifier has the following...Ch. 22 - A transistor amplifier has a midband gain of 120,...Ch. 22 - Sketch the Bode plot of the following function:...Ch. 22 - Sketch the Bode plot of the following function:...Ch. 22 - Sketch the Bode plot of the following function:...Ch. 22 - Sketch the Bode plot of the following function:...Ch. 22 - Sketch the Bode plot of the following function...Ch. 22 - Prob. 56PCh. 22 - Using schematics, obtain the magnitude and phase...Ch. 22 - Using schematics, obtain the magnitude and phase...Ch. 22 - Prob. 59PCh. 22 - Prob. 60P

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