In MATLAB Use symbolic math to solve and plot Laplace Problem 3.5. Problem 3.5 x1(t) 16e2t cos4t u(t x2(t) 20te2t sin4t...
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c. In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c.
Matlab help 1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
Please solve it in MATLAB 6) Interpolation and plot: y=x*; x=0:5; a) Interpolate: x1= 1.5; x2=2.5; x3=3.5 b) Plot x and y and label axis. 7)- A= [1,2;3,4); B= [5,6;7,8] Using MATLAB find the following: A+B; A-B; AB, A/B, A-1,B-1, A.B, A./B 8). Using MATLAB: F(x) = y=x+- 2x2 + 3x – 4 a) find the roots of the polynomial f(x) b) find the integral of the polynomial f(x) c) find the SS(x)dx.
Matlab help 1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
A state space linear system is shown below. Use Matlab to solve the following problems. Requirement for project report: (1) Results; (2) Matlab code. dx1/dt=-x1(t)+u(t) dx2/dt=x1(t)-2x2(t)-x3(t)+3u(t) dx3/dt=-3x3(t) y(t)=-x1(t)+2x2(t)+x3(t)+u(t) (1) Assume the system has input u(t)=e-3t if t>t0 and zero initial state x(0)=[0;0;0]. Using the transition matrix obtained, compute the system’s output (analytical solution), and plot the output as a function of time (t within 0 to 10). (2) Using the function lsim to simulate the system’s output (analytical solution), and...
use MATLAB Q1. Find the Laplace Transform: f(t)=8t?cos(3t+45) syms t use symbolic expression theta-45*pi/180 change 45 degree to a real number f-8 t 2*cos (3*t+theta); 8 this is the function pretty (f) 8print this functiont F-laplace (f);8 run Laplace Transform% F-simple (F); 8simplify or shorten the result pretty (F) print the result
Given the functions below, use MATLAB to plot x2(t), x4(t/2), x6(2t) x2(t) u(sin(t)) x4(t)rt)r(t - 2) 2u(t - 4) x6 (t) 3 sgn(t) rect(t/4) 28 (t 1) 36(t - 3)
1. Use the symbolic tool in MATLAB to obtain Laplace transform for each of the Following and Graph both results time domain (t) and frequency domain (s)
Heat and Laplace equation problem 3. Solve ut – Uz = 0 with u(1,0) = 1, and u (0,t) = U,(2,t) = 0.
b) Find x(t)= x1(t) * x2(t) using the convolution integral. Write the result by region Show all regions and plots in your calculations. eros 3 x Answer: x(t)= bnien l vo s 1Swans ls AVSV meldoy C) Repeat part b) using Laplace. Write the result in terms of delayed unit steps and verify that it is an equivalent result pnwlle Answer: x(t)= ) 3et-1)u(t) 6(t-2) = c) 3e--1u(t)o()= d) 3e--1)u(t)-8(1) = Hint: Is not the same multiplication by a delayed...