6.81 Design an analog computer to simulate the following ezd equation to solve for v) (assume...
Relate to MATLAB and please do it by hand. Thanks
1. Given the following physical system described by the following differential equation. a. Solve for y(t), assume all initial conditions are zero. Use the Laplace transform approach. b. What MatLab command would you use to find the residues c. What is a residue? d. What command would you use to simulate and graph the step response? e. What is the purpose of the partial fractions operation? +12+3 32(0 dt dt...
Solve the following differential equation using MATLAB's ODE45 function. Assume that the all initial conditions are zero and that the input to the system, /(t), is a unit step The output of interest is x dt dt dt To make use of the ODE45 function for this problem, the equation should be expressed in state variable form as shown below Solve the original differential equation for the highest derivative dt 2 dt Assign the following state variables dt dt Express...
Solve the following initial value problem for r as a function of t. Differential equation: Initial conditions: dar -= 3e ti -2e - tj + 9e 3tk dt? r(0) = 71 + 2 + 4k dr = - +5j dt 0
Sheet1 Control 1. Solve the following differential equations using Laplace transforms. Assume zero initial conditions dx + 7x = 5 cos 21 di b. + 6 + 8x = 5 sin 31 dt + 25x = 10u(1) 2. Solve the following differential equations using Laplace transforms and the given initial conditions: de *(0) = 2 () = -3 dx +2+2x = sin21 di dx di dx di 7+2 x(0) = 2:0) = 1 ed + 4x x(0) = 1:0) =...
Relate to MATLAB and please do it by hand. Thanks
1. Given the following physical system described by the following differential equation. a. Solve for y(t), assume all initial conditions are zero. Use the Laplace transform approach. b. What MatLab command would you use to find the residues c. What is a residue? d. What command would you use to simulate and graph the step response? e. What is the purpose of the partial fractions operation? +12+3 32(0 dt dt
Given the following differential equation, solve for y() if all initial conditions are zero. Use the Laplace transform. dt
Simulate Van der Pol Equation The objective is to simulate the Van der Pol equation which came about with electrical circuits with vacuum tubes. Here are the equations: dy dt dv %Simulation Parameter tend-100; % total simulation time seconds % Initial Conditions %Parameters mu 0.2 Generate two figures. Figure 1 a. Title should state: "Van der Pol Equation" Two plots one above the other: b. Top plot is time vs. y Y-axis should have "y" a. c. Middle plot is...
7. Design an Op Amp circuit that solves the following first order differential equation for v(t): dv dt 8. Design an Op Amp circuit that solves the following second order differential equations for y(t): 습+10 y(t) = cos(21t) · dt?
write MATLAB scripts to solve differential equations.
Computing 1: ELE1053 Project 3E:Solving Differential Equations Project Principle Objective: Write MATLAB scripts to solve differential equations. Implementation: MatLab is an ideal environment for solving differential equations. Differential equations are a vital tool used by engineers to model, study and make predictions about the behavior of complex systems. It not only allows you to solve complex equations and systems of equations it also allows you to easily present the solutions in graphical form....
5. Use the following initial conditions for each part as
follows:
Assume that the forcing functions are zero prior to t=0
dt dt t, dr c. der dr2 (a) x(0)=4. x'(0)=-4; (b) x(0)=4. We were unable to transcribe this image