Solve the following differential equation using Linear operators and the Annihilator approach as needed. y''+2y'+y=x^2-3x

Solve the following differential equation using Linear operators and the Annihilator approach as needed.

y''+2y'+y=x^2-3x

Expert Solution

Colby Messinger answered 1 year ago

Solve the following differential equation using Linear operators and the Annihilator approach as needed. y''-9y=xcosx

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Solve the Differential equation y'' - 2y' + y = ex

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Solve using the same approach as the solution using Matlab for this differential equation d^2y/dt^2 + 6dy/dt + 9y = cos(t) has initial conditions y(0)=1 y'(0)=2, Find Y(s) and without finding y(t), determine what function of time will appear in the solution %} clear, clc syms Y s t real rhs = laplace(cos(t),t,s) eqn1 = s^2*Y - s*2 - 1 + 6*s*Y -1 + 9*Y ==rhs myanss = solve(eqn1,Y) mypart = partfrac(myanss,'FactorMode','real') %{ mypart = (0.08*s + 0.06)/(s^2 + 1.0)...

Question

Solve the following differential equation using Linear operators and the Annihilator approach as needed. y''+2y'+y=x^2-3x

Solutions

Expert Solution

Related Solutions

Solve the following differential equation using Linear operators and the Annihilator approach as needed. y''-9y=xcosx

(10 marks) Solve the second-order linear differential equation y′′ − 2y′ − 3y = −32e−x using...

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