QUESTION 2Figure Q2 shows an RLC circuit with an input voltage v() and an output voltage vs acrossthe resistor R. Form a state space model for this system using v(f) and (7) as the statevariables.v/t)VRR=2020.25 FFigure Q2v (1)iz(1)000030.5 H

In this question, we need to determine the state space equation. Variables are Vc and current iL .

Answered: QUESTION 2 Figure Q2 shows an RLC…

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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In the diagram below, the switch S has been closed for a long time. A) What is the output voltage Vout? What is the charge on the capacitor? b) The switch is opened, so the output voltage increases. What is the time constant that describes the charging of the capacitor in terms of R and C? c) When Vout reaches 10 V, the switch closes and the capacitor begins to discharge. What is the time constant that describes the discharging in terms of R and C? Hint: Apply Kirchhoff's Rules to both loops and the sum of the currents at the junction above the capacitor in the diagram, and use I=dq/dt. If the switch opens when Vout reaches a lower value, say 5V, the capacitor will charge again, and thus one can cycle the voltage with a time constant determined by the circuit: this demonstrates the principle of operation of an electronic timer. 4R S 15 V Vout R
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When measuring resistance, the ohmmeter must be connected: O A. In parallel with the resistor but in series with the inductor when measuring the resistance of the inductor as an inductor acts as a short for a DC source O B. Could be connected either way only if you have a digital multimeter OC. None of the choices are correct O D. In series with the component O E. Could be either way

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QUESTION 2 Figure Q2 shows an RLC circuit with an input voltage vi() and an output voltage vs across the resistor R. Form a state space model for this system using v() and (7) as the state variables. v/(1) VR ww R=202 0.25 F Figure Q2 v (1) iz(1) 0000 0.5 H