4. The attached waveform Vs displayed on the oscilloscope approximate the following quantities. (25 pts) 1. The peak voltage. 2. The peak-to-peak voltage. 3. The frequency of the waveform. 4. The difference in time that corresponds to a 72° phase shift for this waveform. 2.5V- 2.0V- 1.5V- 1.0V- 0.5V- 0.0V- -0.5V- -1.0V- -1.5V- 2.0V V(n001) 2.5V- 0.0ms 0.2ms 0.4ms 0.6ms 0.8ms 1.0ms 1.2ms 1.4ms 1.6ms 1.8ms 2.0ms
4. The attached waveform Vs displayed on the oscilloscope approximate the following quantities. (25 pts) 1. The peak voltage. 2. The peak-to-peak voltage. 3. The frequency of the waveform. 4. The difference in time that corresponds to a 72° phase shift for this waveform. 2.5V- 2.0V- 1.5V- 1.0V- 0.5V- 0.0V- -0.5V- -1.0V- -1.5V- 2.0V V(n001) 2.5V- 0.0ms 0.2ms 0.4ms 0.6ms 0.8ms 1.0ms 1.2ms 1.4ms 1.6ms 1.8ms 2.0ms
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter21: Resistive-capacitive Series Circuits
Section: Chapter Questions
Problem 7RQ: An RC series circuit is connected to a 120-V, 60-Hz power source. The resistor is 25 and has a...
Related questions
Question
The attached waveform VS displayed on the oscilloscope approximate the following quantities.
1. The peak voltage.
2. The peak-to-peak voltage.
3. The frequency of the waveform.
4. The difference in time that corresponds to a 72 degree phase shift for this waveform.
How would use of an osciloscope aid in solving this problem?

Transcribed Image Text:4. The attached waveform Vs displayed on the oscilloscope approximate the following quantities.
(25 pts)
1. The peak voltage.
2. The peak-to-peak voltage.
3. The frequency of the waveform.
4. The difference in time that corresponds to a 72° phase shift for this waveform.
2.5V-
2.0V-
1.5V-
1.0V-
0.5V-
0.0V-
-0.5V-
-1.0V-
-1.5V-
2.0V
V(n001)
2.5V-
0.0ms
0.2ms
0.4ms
0.6ms
0.8ms
1.0ms
1.2ms
1.4ms
1.6ms
1.8ms
2.0ms
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