No chatgpt pls will upvote 14. Given a function XL(s)find the continuous(s+2)(s+3)time signal which is the inverse Laplace transform of ✗(s), if(a) the region of convergence is {Re(s) > −2}.(b) the region of convergence is {Re(s) < −3}.(c) the region of convergence is {-3 < Re(s) < −2}.You may look up the answers from the tables in the textbooksor on the internet, but you need to demonstrate that theanswers you provide are consistent with the stated conditions.

Step 1: Regarding Laplace inverse transform for a two pole system, there lies three possibilities:1)…

Answered: 1 4. Given a function XL(s) find the…

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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Q1 Find the z transform for each of the following sequences: a) 3u(n-4) b) 2(-0.5)nu(n) c) 4e-2nu(n) d) 4(0.8) "cos (0.1лn)u(n) Q2 Given the two sequences x₁(n)= -28(n)+58(n-2) and x2(n)= 48(n-4) a) Let x3(n) = x₁(n) * x2 (n) Determine the Z transform of x3(n) b) Find x3(n) using the inverse transform of X3(z). Q3 Using the Z-transform properties and the Z-transform table find the inverse Z- transform for each of the following sequences a) 5- (7z/z+1) - (3z/z-0.5) b) (-3z/(z-0.5)) +[ 8z/(z−0.8)]+ [2z/(z-0.8)²] c) 3z/(z²+1.414z+1) d) (5z %/z-1)-[ z^²/(z−1)²] + [z −¹⁰0] + [z ³/z-0.75] Q4 Use partial fraction expansion, Find the inverse Z-transform of the following: a) [1/(z²+0.5z+0.06)] b) z/[(z+0.3)(z-0.5)] c) 5z/[(z-0.75) (z²-z+0.5)] d) 2z(z-0.4)/[(z-0.2)²(z+0.8)] Q5 A system is described by the following difference equation y(n)-0.5y(n-1) +0.06y(n-2)= (0.4)n-1u(n-1) Determine the solution when the initial conditions are y(-1) = 1 and y(-2)=2.
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I need the answer quickly
Please give me correct answers for this
(b) Determine the Inverse transform of X(2) using Long Division Method. Calculate until the fourth value of x/n/. X(2)=1-42-1+32-2 |> (c) Determine the Laplace Transform then sketch the pole-zero plot and ROC for the following signal. x(t) = etu(t)-e-²¹u(t) Re(s) > -Re(a) ē Figure 1 shows a system with series, parallel and feedback connections. Find the Transfer Function. s+3 X s+2 s+1 H Figure 1. System with series, parallel and feedback Determine the complex Fourier coefficients for the following signal: x(t) = sin 4t + cos 6t
The inverse z-transform of F(z) is: Select one: O a. f(k)= O b. f(k)= O c. f(k)= O d. f(k)= x (5)* x cos(0.92k +1.57) x(-5) x cos(0.92k-1.57) x (5)* x cos(0.92k-1.57) x (5)* x cos(1.57k - 0.92) F(2) = 25-62+25
find for me (iii) until (vi)
Find the z-transform and its region of convergence (ROC) for each of the following sequences:..a) x[n] = δ[n]+δ[n-5]b) x[n]= (-0.5)nu[-n-1]
2- Find the z transform of the following two functions: (a) x₁(n) = n(0.5)"-2u(n) (b) x2 (n) = (0.5)"u(n-2)
What is the z-transform of the following finite duration signal? x(n)={2,4,5,7,0,1}? a) 2 + 4z + 5z + 7z3 + z4 b) 2 + 4z + 5z + 7z3 + z5 C) 2 + 4z1 + 5z2 + 7z3 + z5 d) 2z2 + 4z + 5 +7z1 + z3
Can you solve this question please
Please don't use the Z transform

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