Consider a dynamic system described by the following second-orderdifferential equationÿ(t)+3y(t)y(t)+y(t)=3sin(t)with the initial conditions y(0) = 0, and y(0) = 0.i)Choose suitable state variables and derive the state space systemmodel. Give the corresponding initial conditions.ii)iii)dy- = f (†, y), y(0) = yº, the 4th -order Runge-Kutta method isdtgiven byY₁+1=Y₁ + = (k₁ + 2k₂ + 2k3 + k)hwhere k; = S(1,93;), k₂ = ƒ{ 1, + ½ h,y), + ½ k;h),k; = f[ t, + ½ h, y, + — k;h)and k₂ = f(t, +h;y, +k;h).Using the 4th order Runge-Kutta method and choosing the steplength h = 0.1, find the approximate values of y(t) and y(t) at t =0.1, and t= 0.2.Draw a simulation diagram implemented in SIMULINKFor

The given dynamic system is .The initial conditions are .We know that, for a system of differential…

Consider a dynamic system described by the following second-order differential equation ÿ(t)+3y(t)y(t)+y(t)=3sin(t) with the initial conditions y(0) = 0, and y(0) = 0. i) Choose suitable state variables and derive the state space system model. Give the corresponding initial conditions. ii) dy = f (t, y), y(0) = yº, the 4th -order Runge-Kutta method is dt given by Y₁+1 = Y₁ + − (k₁ + 2k₂ + 2k3 +kä)h For = where k; = S(,y),), k₂ = S({1, + ½ h,y, + ½ k;h), t₁ k; = f[{t, + — h, y, + — k;h)and k, = f(t; +h,y; +k;h). Using the 4th order Runge-Kutta method and choosing the step length h = 0.1, find the approximate values of y(t) and y(t) at t = 0.1, and t= 0.2. Draw a simulation diagram implemented in SIMULINK

Consider a dynamic system described by the following second-order differential equation ÿ(t)+3y(t)y(t)+y(t)=3sin(t) with the initial conditions y(0) = 0, and y(0) = 0. i) Choose suitable state variables and derive the state space system model. Give the corresponding initial conditions. ii) dy = f (t, y), y(0) = yº, the 4th -order Runge-Kutta method is dt given by Y₁+1 = Y₁ + − (k₁ + 2k₂ + 2k3 +kä)h For = where k; = S(,y),), k₂ = S({1, + ½ h,y, + ½ k;h), t₁ k; = f[{t, + — h, y, + — k;h)and k, = f(t; +h,y; +k;h). Using the 4th order Runge-Kutta method and choosing the step length h = 0.1, find the approximate values of y(t) and y(t) at t = 0.1, and t= 0.2. Draw a simulation diagram implemented in SIMULINK

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Question

Consider a dynamic system described by the following second-order
differential equation
ÿ(t)+3y(t)y(t)+y(t)=3sin(t)
with the initial conditions y(0) = 0, and y(0) = 0.
i)
Choose suitable state variables and derive the state space system
model. Give the corresponding initial conditions.
ii)
iii)
dy
- = f (†, y), y(0) = yº, the 4th -order Runge-Kutta method is
dt
given by
Y₁+1=Y₁ + = (k₁ + 2k₂ + 2k3 + k)h
where k; = S(1,93;), k₂ = ƒ{ 1, + ½ h,y), + ½ k;h),
k; = f[ t, + ½ h, y, + — k;h)and k₂ = f(t, +h;y, +k;h).
Using the 4th order Runge-Kutta method and choosing the step
length h = 0.1, find the approximate values of y(t) and y(t) at t =
0.1, and t= 0.2.
Draw a simulation diagram implemented in SIMULINK
For

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Step 1: Introduction

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Step 2: Calculating state space system

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Step 3: Iteration 1 of Runge-Kutta method

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Step 4: Iteration 2 of Runge-Kutta method

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