3.It is a remarkable fact that we can predict how a linear system responds to any input by just knowing howit responds to a single impulse - a (arbitrarily) short duration signal with an (arbitrarily) high amplitude.To characterise the behaviour of a loudspeaker, you excited it byapproximate an impulse.a pulse voltage at t = 0 as shown toVIN (V)10VINt (ms)10 ΚΩ0.5 H VL(t)(a)0.1LoudspeakerWithout doing any calculations, sketch and briefly explain what you think is the likely responseVL(t) for t>0 due to the pulse signal.(b) (For fun) Determine the trough (i.e., minimum) of the response v✓ (t) of the speaker for t > 0. (Thisprovides information about the performance of the tweeter in the speaker, responsible for producinghigh-frequency sound.)

Answered: 3. It is a remarkable fact that we can…

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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1. Consider a sinusoidal signal x(t)=sin(2n50t) for ten complete cycles. Using this signal, plot to represent the following: (a) Plot x(t) as analog continuous signal (b) Plot x(t) as analog discrete-time signal (c) Quantize the signal to 4 levels, +1, +1/3, -1/3, -1 and plot the corresponding i) digital discrete-time signal; and ii) digital continuous signal (d) Plot the amplitude spectrum for the sinusoidal signal generated in part (a). (e) Plot the phase spectrum for the sinusoidal signal generated in part (a).
The following plot is a step response of a sixth order system. 1. Find the time domain specifications i.e. Tp. Tri. T. and P.O. 2. Find a second order system whose response matches the given response in the following sense a. The percentage overshoot and rise time b. The peak time and settling time c. The rise time and settling time You have to find three systems spred 13) "1 1 aut ON 071 0.3) DA 63) 61 6 2 B Control Systems Homework Problem 3 . 10 12 14 P.O. = e √1-² 100 4 Ts= Con Satisfying 2% criteria 10 18 20 Step Response for 24 The -In (100) 7²+In²(0) Tr 20 P.O. 100 Tp= 2.16+0.60 On 0.3≤ ≤0.8 @n 7 100 1-2 and 10% to 90% value
The following plot is a step response of a sixth order system. 1. Find the time domain specifications i.e. Tp. Tri. T. and P.O. 2. Find a second order system whose response matches the given response in the following sense a. The percentage overshoot and rise time b. The peak time and settling time c. The rise time and settling time You have to find three systems Aroude 1 14 13) 12 UP E ON ST 06 0.5 DA 03 63 DI 0 6 A W . -CA P.O.= e √1-2 Ts= 4 ζωη Satisfying 2% criteria 10 Control Systems Homework Problem 3 100 M 16 18 20 Step Response for 24 21 20 30 The P.O. -In (100) √²+In² (²00) Tr Tp 2.16+0.60 On 0.3<≤0.8 Onv T 1-32 and 10% to 90% value
Find the magnitude of the response of the following system.(Need handwritten solution only please otherwise downvote ).
why 225 sin(t/3) is The forced oscillation is imposed on the natural oscillation ofcurrent given by −74sin(t) ??????????? I do want to know if I face such a question how can I determine
Preform AC Steady-State analysis for the circuit calculating the time response function for VRC2, the green probe. R1 50 L1 10mH V1 C2 33u VOFF = 0 VAMPL = 15 FREQ = 200 AC = 0 R2 100
b) Create a new folder name Lablb in your D:\Student_Matric_Number. Find the output X and show the simulation waveform. A B
(b) Figure Q1(b) shows the step response for a second-order system. Find its peak time and percentage of overshoot. Hence, obtain its transfer function. 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 0. 6 10 12 14 16 18 20 22 24 Time (s) Figure Q1(b) Response
Frequency stability refers to an oscillator's ability to maintain a constant frequency and is critical in communications systems. The word "short-term" or "long-term" is frequently used to describe frequency stability. Short-term stability is primarily influenced by dc operating voltage variations, but long-term stability is influenced by component aging as well as changes in ambient temperature and humidity. Which of the statements below is TRUE? Select your answer. Because RC phase shift oscillators are subject to both short- and long-term fluctuations, frequency stability in LC tank-circuit and RC phase shift oscillators is inadequate for most radio communications applications. Because RC phase shift oscillators are prone to short-term changes, frequency stability in LC tank-circuit and RC phase shift oscillators is inadequate for most radio communications applications. Because RC phase shift oscillators are sensitive to long-term fluctuations, frequency stability in LC tank-circuit…
For the system described in problem 1, what is the steady-state error for the ramp input r(t) 10tu (t)? %3D Edit View Insert Format Tools Table
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The signal x(t) = sin(2022nt) is sampled at 455 Hz. Determine the equivalent signal and sampled signal expression.

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