3 Assume that the circuit shown in Figure P5.73 isunderdamped and that the circuit initially has noenergy stored. It has been observed that after theswitch is closed at t = 0, the capacitor voltage reachesan initial peak value of 70 V when t = 57/3 µs and asecond peak value of 53.2 V when t = 57 us, and iteventually approaches a steady-state value of 50 V. IfC = 1.6 nF, what are the values of Rand L?t= 0ww

The circuit is under-damped circuit and has no initial energy stored. The circuit diagram is shown…

Answered: 3 Assume that the circuit shown in…

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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Similar questions

Determine the initial and final conditions for thecircuit of Figure P5.29.
Give a detailed solution. Please need help
a) Find the output waveform for the sinusoidal input of figure Q2a. 20 V Flg.Q2a
.?
Determine the initial and final conditions for thecircuit of Figure P5.23.
What is a capacitor and how do they work? What is it about capacitors that make them unique? What is the formula for one time constant? How many time constants does it take to fully charge a capacitor? Show illustrations. What other electronic component(s) are commonly found with a capacitor…especially in timing circuits? What types of capacitors are there? What are the formulas for series and parallel capacitors? If three 30 uF capacitors were connected in parallel what would the net capacity be? How about the net value if the capacitors in Q7 were connected in series? If you were to connect a 5K-ohm resistor in series as in Q7… what would the first time constant be? What about time to full charge? Describe the difference between AC (alternating current) and DC (direct current). Use illustrations. Why is voltage generated and distributed in AC? What type of circuit(s) would change AC to DC? How about DC to AC?
Write the differential equation for t > 0 for thecircuit of Figure P5.52.
Refer to Figure P5.11. Find the value of K₁ and K₂ that will result in a step response with a peak value of 1.5 sec. and a settling time of 3 sec. R(s) K₁ 30 s(s+2) K2s C(s)
Theoretically obtain the expression of the voltage across the capacitor from the Experiment when the circuit is stimulated with a 5 V direct current voltage source. Assume that initially the capacitor is fully unloaded (null initial conditions). Graph the waveform obtained.
4
Solve the given problem
8 For t > 0, the circuit shown in Figure P5.22 is at steady state. The switch is changed as shown at t = 0. Vsi = 35 V C = 11 µF Vsz = 130 V R = 17 k2 R = 7 k2 R = 23 k2 Determine the time constant of the circuit for t> 0.

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