4.2. Assemble the high-pass filter circuit which is in Figure 3.1. a) Repeat the tests as outlined in the previous section but this time start your frequency readings at 50 Hz and work your way up to 10 kHz. Record all your results in your report sheet. b) On the graph that you draw, indicate the cut-off frequency. c) Calculate the cutoff frequency.
4.2. Assemble the high-pass filter circuit which is in Figure 3.1. a) Repeat the tests as outlined in the previous section but this time start your frequency readings at 50 Hz and work your way up to 10 kHz. Record all your results in your report sheet. b) On the graph that you draw, indicate the cut-off frequency. c) Calculate the cutoff frequency.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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4.2. Assemble the high-pass filter circuit which is in Figure 3.1.
a) Repeat the tests as outlined in the previous section but this time start your frequency readings at
50 Hz and work your way up to 10 kHz. Record all your results in your report sheet.
b) On the graph that you draw, indicate the cut-off frequency.
c) Calculate the cutoff frequency.
d) Compare the calculated and the measured values of the cut-off frequency.
Transcribed Image Text:4.2. Assemble the high-pass filter circuit which is in Figure 3.1.
a) Repeat the tests as outlined in the previous section but this time start your frequency readings at
50 Hz and work your way up to 10 kHz. Record all your results in your report sheet.
b) On the graph that you draw, indicate the cut-off frequency.
c) Calculate the cutoff frequency.
d) Compare the calculated and the measured values of the cut-off frequency.
Transcribed Image Text:C = 47NF
R= 10k2
Vout
Figure 3.1
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