The convolution y(n) = x(n) • h(n) of the following signals x(n) = u(n +1) - u(n- 2) - 8(n- 2) and h(n) =%3D[u(n+2) – u(n– 1)].(4 – |n|) Is{5,9,9,5, 1,–4}O b. {2,5, 9, 5,1,–4}{1,3,6, 8,9,8,5,1, –2, –2, – 1)Od (5,9,9, 5,1,-4}(2,5,9,5, 1, –4}

The sequence from the given signal x(n) = [ 1,1,1,-1] h[n] = [ 2,3,4 ] y[n] = x(n) * h(n)…

The convolution y(n) = x(n) • h(n) of the following signals x(n) = u(n + 1 = [u(n+2) – u(n – 1)].(4 –|n|) Is - u(n– 2) – 8(n– 2) and h(n) {5,9, 9,5,1,–4} O b. (2,5, 9, 5, 1, –4} {1,3,6, 8,9,8, 5, 1, -2,-2,-1} Od [5,9,9, 5,1, –4} Oe (2,5,9,5, 1, –4}

The convolution y(n) = x(n) • h(n) of the following signals x(n) = u(n + 1 = [u(n+2) – u(n – 1)].(4 –|n|) Is - u(n– 2) – 8(n– 2) and h(n) {5,9, 9,5,1,–4} O b. (2,5, 9, 5, 1, –4} {1,3,6, 8,9,8, 5, 1, -2,-2,-1} Od [5,9,9, 5,1, –4} Oe (2,5,9,5, 1, –4}

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

Related questions

Q: Q2: The closed loop transfer function of a system is given by G(Z) 1 1+ G(Z) Z2 – Z +1 Find the…

A: Closed loop transfer function of a system given. Find the location of poles Damping ratio Natural…

Q: n-1 The input to an LTI system is x n = u [n]and the corresponding output is y [n] = ()"*u [n+ 1].…

A: We need to select correct statement for given discrete system .

Q: Transfer function of the pulmonary system that represents alveolar pressure PA to Pao is given by…

A: This question is from "control system". Under which we are going to study about the "steady state…

Q: 2) The forward path transfer function is given by G(s) expression for unit step response of the…

Q: 1, The circuit diagram of the system is shown in figure. The initial conditions of the…

Q: The input to an LTI system is æ [n] = u [n]and the corresponding output is y [n] = ()“*u [n+ 1].…

Q: Consider the circuit given below. 2 kQ Зи() V 1 kQ If C = 9 nF, obtain an expression for vc valid…

A: For the given circuit we have to find the expression capacitor voltage

Q: A system is described by the difference equation y[n] = a[n] – a[n – 2] + a[n – 4] – a[n – 6] %3D -…

Q: 4) A system has a zero-input response as shown in the figure below. What were the eigenvalue(s) of…

Q: Given SOP function f(A, B, C) = m(0, 2, 3, 6, 7) design it using 4:1 MUX

A: Givenf(A,B,C)=m(0,2,3,6,7)

Q: 12.3 Make a sketch of f(t) for –15 s < t s 35 s when f(t) is given by the following expression: 1) =…

Q: REDMI NOTE 9 PRO AI QUAD CAMERA Fig-1 Q2: a) For the transfer function, T(s), 5(s+4) + 10s2 + 31ls+…

Q: Exercise: 1. Find transient and steady state characteristic of the following transfer function s+2…

Q: Q6/ Assume system transfer function (output to input) is given by: Y(s) K, w R(s) s2 + 23wns + w…

A: Given transfer functionY(s)R(s)=k0ωn2s2+2ζωns+ωn2input r(t)=3.5t2k0=2,ζ=0.13,ωn=3.3

Q: The voltage impulse response of a circuit is shown in (a). The input signal to the circuit is the…

A: Since you have asked multiple question, we will solve the first question for you. If you want any…

Q: Assume initially relaxed, solve for the response y(n) {0, 0, 1, 0, –2, 0 3} + y(n) -1 - 0.5 0.25

Q: hat is the impulse response of a stable discrete-time system with the following mathematical…

Q: 9. a) A signal x(t) is given in Figure 9.a. Represent the signals x1(t), x:(t) and x:(t); using x(t)…

Q: Q1 The following differential equation describes a water tank system d 1 1/ h (1) + / 72 h(t) = — /…

A: 1) Given : Differential equation describing a water tank system d) To derive the output in Laplace…

Q: Question 1 Given the two four-point sequences x[n] = [-2, –1,0, 2] and y[n] = [-1, –2, –1, –3]. find…

A: Solution 1- Given,x[n]=[-2, -1, 0, 2]andy[n]=[-1, -2, -1, -3]

Q: Question 3. A linear system shown below has an impulse response of h(t) = {te"k", when t > 0 where K…

Q: Utilizing the Routh-Hurwitz criterion to determine whether the following polynomial is: P(s) = s5 +…

A: given

Q: e transfer function of a causal system is H (z) . Which of the following statement(s) are correct?…

Q: s+1,8 For the system with forward path gain G(s) = and feedback gain H(s) = 5, input s²…

Q: 1. Utilizing the Routh-Hurwitz criterion to determine whether the following polynomials are: P.(s) =…

Q: 500 N 1000 N 160 nF 100 mH R1 = 500 N, R2 = 1000 N, L = 100 mH,C = 160 nF,i,(t) = 4 cos 5000t mA %3D…

Q: Calculate the transfer function from the following state space representation 1 0 [o 0 0 0 1 %3D X2…

A: The given state-space representation is,…

Q: 2.4-2 Evaluate the following integrals: (c) L, 8(t)e-lut dt (d) S, 8(t – 2) sin at dt (g) , g(2 –…

Q: 1. Determine the convolution result y[n] of two signals x[n] and h[n] using the analytic method of…

A: Convolution Property When two discrete function are convoluted in time domain, then it's Z-Transform…

Q: A discrete time signal is given by: x(n) = [2, 2, 2, 2, 3] Sketch the following signals : x(n)…

A: Given: A discrete time signal is x[n] = {2, 2, 2, 2, 3} To sketch : x[n] u[n-1]

Q: Convolve the x(n) with h(n) * x(n) * and h(n) are given by, x(n) = (1, 2, 3) h(n) = (1, 2, 1)

Q: 1. Find the energies of r(t) = u(t) – u(t – 2) and y(t) = u(t) – 2u(t – 1) + u(t – 2), for t e R,…

A: Bartleby has policy to solve Only 1st question and incase if it has subparts then solve only first 3…

Q: 1.17 Sketch the following discrete-time signals: 1, -3<n<3 (a) x[n] = < 0, otherwise 1, n =-1 2, n =…

A: According to the question, we need to sketch discrete-time signal.

Q: Ex. 304. See Figure 280. G(s)=100/( (s+2) (s+12) ), H(s)=1, and R(s)=1/s (unit step input). For the…

Q: 4. Transfer function of the system is defined as the ratio of Laplace output to Laplace input…

A: 4) Transfer function of the system is defined as ratio of Laplace output to Laplace input…

Q: x [n] Let h[n]be the impulse response of the following system 2 D 2 What are the initial values of…

Q: The switch in the circuit in Fig. P12.30 has been in position a for a long time. At t = 0, the…

A: We will apply kcl at node And we will obtain the integro differential equation governing the system.…

Q: 1. A linear, time invariant system has an impulse response h(t) = e"µ(t). Determine (1;1 >0 its…

A: Given functions are – Laplace transform of both functions are –

Q: 14. Consider the first-order system described by the difference equation y[r] – {y[n – 1) = r[n].…

Q: 3.9 Consider the following impulse responses: hi(1) = [(2/3)e 2 +(1/3)e']u(t), h3(t) =-(2/3)e-2"…

A: As per the guidelines of Bartley we supposed to answer first three subpart only for solution of…

Q: (a) Find and sketch the output of an LTI system whose impulse response, h(t), and input, I(t), are…

A: Convolution Integral-Convolution is used to find the output of any LTI system for any arbitrary…

Q: Kp=2, Ka=3, Km=1, J=1, F=5, a=1 and h=1. & (s) E(s) V(s) Km Ⓒm(s) ⒸR(S) K₂ Ka a -e, (s) s(Js + F)…

Q: Either the following signals: f(t)=0 if t1.5 (i) Give the graphical representations of…

A: Note: We are authorized to answer three subparts at a time since you have not mentioned which part…

Q: the following: z[n] = {-1,0,1,4}and h[n] = {1,2, 3}. %3D уn] %3D {-1,-2, -2, 6, 11, 12} уm] —…

Q: 2. The continuous-time signal xe(t) = cos(20πt) is sampled at rate of 8 samples per second (1/T₁=…

A: According to the question, for the given continuous-time signal xct=cos20πt; We need to find (1)…

Q: Consider the continuous-time system described by the input-output relationship: t+1 y(t) = x(t) dt…

A: As per our policy we can provide solution of first three question only. For a) Step 1: Check system…

Q: What is the impulse response of a stable discrete-time system with the following mathematical…

Q: We consider a system defined by its impulse response: h(t) = 2u(t – 1) Find the output of the system…

Q: 1=0 R U(1) L= 1 mH C=0.1 uF Figure (Q.2.b) Figure 2.b) Consider the circuit shown in Figure (Q.2.b)…

A: (a) source current (is) = 0.1 A Current flowing through resistor is iR and the capacitor is iC…

Q: A combinational circuit has three inputs (C,l1, 1,) and two outputs (01,00). The function is…

A: Given, A combinational circuit has three inputs i.e C, I1 & I0 and two outputs O1 & Oo. If…

Question

The convolution y(n) = x(n) • h(n) of the following signals x(n) = u(n +
1) - u(n- 2) - 8(n- 2) and h(n) =
%3D
[u(n+2) – u(n– 1)].(4 – |n|) Is
{5,9,9,5, 1,–4}
O b. {2,5, 9, 5,1,–4}
{1,3,6, 8,9,8,5,1, –2, –2, – 1)
Od (5,9,9, 5,1,-4}
(2,5,9,5, 1, –4}

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

1)The circuit shown below is initially, for t < 0, with capacitor C connected to a battery (Vbat = 12 V). The key is switched at t = 0, disconnecting the battery and turning on the capacitor to the rest of the circuit.a) Determine the energy stored in the circuit at t = 0 . b) Draw an equivalent circuit for the frequency domain, valid for t ≥ 0. Indicate the values of all components of the equivalent circuit.c) Determine the expression for the loop current in the frequency domain, I(s), expanded into partial fractions.
Make the equation s(s+1)(s+2)+K=0 in the form of 1+KF(s) and explain the drawing of root-locus curves. (Note: Indicate the splitting points, centers and angles of the asymptotes)
3. The __________ is, in essence, a switch which closes for a brief period oftime and then open, closing and opening many times a second. 4. The ___________ is a way to tell how many frequency components are neededto make up a signal.
Convolve the x(n) with h(n) * x(n) * and h(n) are given by, x(n) = (1, 2, 3) h(n) = (1, 2, 1)
Transfer function of the pulmonary system that represents alveolar pressure PA to Pao is given by H(s)=0.8∗8,5s2+4s+8,5H(s)=0.8∗8,5s2+4s+8,5 . for Pao = 5 mmH2O, PA at steady-state is …… mmH2O
The response of a system, h(t) is given as in Figure 1 below where the amplitudeof this signal is 7. Then,this system is excited by an input of x(t) = (u(t) × (u(-t)+u(t))) /1. 1)Illustrate the input signal, x(t). 2)Calculate the convolution output of the system y(t) = x(t) ∗ h(t). Nextdetermine y(t) when t is 1 sec 2)Prove the solution in Q2 is comparable when solving in frequency domain(Laplace). Next, sketch the signal for convolution output.
For the system with forward path gain G(s)=s+5s2+3s+2G(s)=s+5s2+3s+2 and feedback gain H(s)=1s+3H(s)=1s+3, input R(s)=8sR(s)=8s will be applied. Find the steady-state error (ess) that will occur in the system and enter it into the space given below
Graph the following functions for the given x[n]= {…,0,2,-2,0,1,3,-2,-3,1,-1,0,…} signal. a) y[n]=x[n](u[n+3]-u[n-2])-2∂[n]+3∂[n-3]x[n b) y[n]=2x[-n]+(x[n])²+x[-n+2]
Find the convolution of x[n] = {1,2,3,1} and h[n] = {1,2,1,-1} , origin at 2.
Measurements conducted on a servomechanism show the system response to be: C (t) = 0.3 e 60t + 1.5 e 10t, when subjected to a unit step input. [1].Obtain the expression for the closed-loop transfer function. [2].Determine the undamped natural frequency and damping ratio of the system.
A system is described as: w (n + 1) = 0.5 w(n) — x(n) y(n) = w (n) - x(n) Where x(n) and y(n) are input and output signals, respectively. 1. Draw a block diagram or signal flow graph representation for this system by using Direct form II 2. Find the system function H(z) and the impulse response h(n) of this system. 3. Is this system causal or not? Why? 4. Is this system stable or not? why? 5. If the input impulse Dirac 8 find the difference equation.
a) Y(ω) = 1/(5+jω) The expression above defines the frequency domain signal Y(ω) from a time domain signal y(t) i) Determine the imaginary & real parts of Y(ω). ii.Determine the signal y(t) that produced the signal Y(ω). b)What are the 3 areas of application of i.Signals ii.Systems c) Briefly summarise with explanation the difference between discrete & continuous time signal and also write an expression that describes each signal type.