Question 3:Consider the following system:R(s) +b)r(t) = 10tu(t)c) r(t) = 10t²u(t)●68Calculate the steady-state error, ess (0o) due to the following input signals:a) r(t) = 10u(t)●R(S)3s+4Reminder:• You need to reduce the block diagram to the form:2G(s)C(s)Find the equivalent T(s) =G(s)1+H(s) G(s)Use the RH table to determine the systems stability.

FOr the given above block diagram,It can be solved by using Masons gain formula:: And our aim to…

Question 3: Consider the following system: R(s) + b) r(t) = 10tu(t) c) r(t) = 10t²u(t) ·In ● 68 R(s) Calculate the steady-state error, ess (co) due to the following input signals: a) r(t) = 10u(t) 3 s+4 Reminder: • You need to reduce the block diagram to the form: G(S) 2 C(s) C(s) Find the equivalent T(s) = G(s) 1+H(s)G(s) Use the RH table to determine the systems stability.

Question 3: Consider the following system: R(s) + b) r(t) = 10tu(t) c) r(t) = 10t²u(t) ·In ● 68 R(s) Calculate the steady-state error, ess (co) due to the following input signals: a) r(t) = 10u(t) 3 s+4 Reminder: • You need to reduce the block diagram to the form: G(S) 2 C(s) C(s) Find the equivalent T(s) = G(s) 1+H(s)G(s) Use the RH table to determine the systems stability.

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...

See similar textbooks

Similar questions

CAN YOU SOLVE THIS QUICKLY find v(t)?
Find the time constant for the RC circuit. Take C = 700 mF. 50V (+ 120 Ω www 80 Ω The time constant for the RC circuit is 12 Ω www S. C
How can I find the voltage across the capacitor (in the time domain) using superposition in this circuit?
3. The discrete-sme syiem shown in Figure 2 consists of twount-delay elementi and scalar mutiplers. Wite a diftororce equation trat relatos the sutpur ya) and he input ajk]. D D Figure 2.
For the first problem , do we have to go 2 places to the left from y axis and 3 places to the right but from the quadrant 4 to the right? Can you please explain step by step prob 1 and 2
Time left 0 In the following circuit, if vin(t)=2u(t), L=1H and R=20, then Vout(s) is: L Vin Vout O a. V s(2s+1) 2x2 V s(s+2) O c. None of the other answers V s(s+1) Od. V s(s+2) e Next page page
Problem 8: The figure (below left) describes a common problem in which a small input signal vin is contaminated by vnoise from an AM radio station. To minimize noise, an inductor is added between the input and the measurement v, (below right). Assume vin-1.0 and noise 1.0cos(w t). Vin(t) Vnoise(t) R 10 ΚΩ A + vo(t) Vin Vnoise ja L R 10 ΚΩ For the circuit on the above right, 1) What is vo when there is no noise (vnoise=0)? 2) What is vo when there is no input signal (v=0)? in 3) What is vo when neither is zero? 4) Explain how large values of L will reduce the noise in vo 5) Show that L=22.6mH will reduce the f=700kHz noise to 10% of its original value. 6) Use LTspice to show that your circuit works A + Vo
Let's continue analyzing the RL transient circuit. R 100 VA 10V 811∞ Switch is at A 01A O-1A + VR(t) - 02A Switch is at A O OA t=0 t= 0+ Switch is at B Y t=0 = 0. Note that, the current in the 3. At t = 0+, which is the time instant immediately after t inductor is a continuous value, i.e., it cannot suddenly change. Therefore, IL (0) = I₂ (0¹) vi(t)L 10H 4. At t= too, the switch is at position B. The connection between the voltage source and the inductor has been disconnected for a very long time. What is the current in the inductor at this time, i.e., IL (+∞o)? t = +∞ Switch is at B
Determine for the following diagram, what is the damping factor and natural frequency of the system. Imaginary Axis (seconds) 15 10 -10 -15 -3 -2.5 Root Locus X-1.5 Y 2.598 -2 -1.5 -1 Real Axis (seconds¹) -0.5 0 0.5
A capacitor in an RC circuit with R = 2 Q and C = 1.6 F is being charged. The time required for the capacitor voltage to reach 100 % of its steady state value is: O A. 4 seconds O B. 0.5 seconds O C. 40 seconds O D. 16 seconds O E. None of the given answers O F. 8 seconds A Moving to the next question prevents changes to this answer. Question 5 of 30
Q1) Find the current i(t) for the series RC circuit if the applied voltage is E(t) = 3e-t given that R = 20, C = 1F,and q(0) = 0.
An RLC circuit with a 10 μF capacitor is connected to a variable-frequency power supply with an rms output voltage of 6.0 V. The rms current in the circuit as a function of the driving frequency appears as shown. What are the values of the resistor and the inductor?