1.4 Assuming the waveform of the voltage drop across Ri is Vr=VrpSinwt, determine the amplitude (VrP, in Volt') and the radian frequency (w, in ʼrad/sec') from the waveform. 1.5 The inductor and resistor in Figure 1 forms one first-order RL circuit. What is the time constant t for this RL circuit?

1.4 Assuming the waveform of the voltage drop across Ri is Vr=VrpSinwt, determine the amplitude (VrP, in Volt') and the radian frequency (w, in ʼrad/sec') from the waveform. 1.5 The inductor and resistor in Figure 1 forms one first-order RL circuit. What is the time constant t for this RL circuit?

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 6RQ: A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating...

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Capacitor

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

Question

1.4
Assuming the waveform of the voltage drop across R1 is Vr=Vrpsinwt, determine the amplitude (VrP,
in Volt') and the radian frequency (w, in ʼrad/sec') from the waveform.
1.5
The inductor and resistor in Figure 1 forms one first-order RL circuit. What is the time constant t for
this RL circuit?

1. A circuit with sinusoidal voltage source used as the input is given in figure 1.
R1
470
V1
VOFF = OV
VAMPL = 3V
FREQ = 10kH2
47mH
L1
2
Figure 1

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