Using Laplave Transform, evaluate the integro-differential equation. y"(x)+9y(x)=40e^x . y(0)=5 , y'(0)=-2

ka1leE

ka1leE

Answered question

2021-09-23

Using Laplave Transform, evaluate the integro-differential equation
y(x)+9y(x)=40ex;y(0)=5,y(0)=2

Answer & Explanation

izboknil3

izboknil3

Skilled2021-09-24Added 99 answers

Step 1
Solve the given differential equation by Laplace transform.
The given equation is y(x)+9y(x)=40ex;y(0)=5,y(0)=2
The given equation is y(0)=5  and  y(0)=2
Step 2
Taking the Laplace transform on both sides of given equation.
L{y(x)+9y(x)}=L{40ex}
L{y(x)}+9L{y(x)}=40L(ex)
{s2ysy(0)y(0)}+9y=40{1s1}  {L(eax)=1sa}
s2ys(5)(2)+9y=40s1   {y(0)=5 and y(0)=2}
s2y5s+2+9y=40s1
y(s2+9)=40s1+5s2
y(s2+9)=40+(5s2)(s1)s1
y=5s27s+42(s1)(s2+9)s˙(2)
Step 3
Solve the R.H.S. of equation (2) by partial fraction.
5s27s+42(s1)(s2+9)=As1+Bs+Cs2+9
=A(s2+9)+(Bs+C)(s1)(s1)(s2+9)
=As2+9A+Bs2Bs+CsC(s1)(s2+9)
=(A+B)s2+(B+C)s+(9AC)(s1)(s2+9)
Equating the coefficients of same variables.

Do you have a similar question?

Recalculate according to your conditions!

New Questions in Differential Equations

Ask your question.
Get an expert answer.

Let our experts help you. Answer in as fast as 15 minutes.

Didn't find what you were looking for?