## Abstract algebra: systems of differential linear equations

1. The problem statement, all variables and given/known data

Solve the inhomogeneous differential equation dX/dt=AX+B in terms of the solutions to the homogeneous equation dX/dt=AX.

2. Relevant equations

A is an nxn real or complex matrix and X(t) is an n-dimensional vector-valued function.
If v is an eigenvector for A with eigenvalue a, then X=v*ea*t is a particular solution to the differential equation dX/dt=AX.
And the general solution of the homogenous eqn is X=P-1*Xtilda.

3. The attempt at a solution

So, the general solution of the inhomogeneous equation should be a particular solution of the inhomogenous equations + the general solution of the homogeneous equation. We know the general part, but I am lost on how to find the particular solution for an inhomogeneous equation. Any help would be apprecaited!
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 Blog Entries: 5 Recognitions: Homework Help Science Advisor Is B a constant vector? In that case, you could try a solution where X is also a constant vector, such that dX/dt = 0.
 Recognitions: Gold Member Science Advisor Staff Emeritus You can use a multi-dimensional version of "variation of parameters". If the general solution to the homogeneous equation is $X= P^{-1}X^~$ try a solution of the from $Y= P^{-1}X^~u(t)$ where u(t) is an unknown function. Then $Y'= P^{-1}X^~'u+ P^{-1}X^~u'$ and $Ay= AP^{-1}X^~u$ so the equation becomes $P^{-1}X^~'u+ P^{-1}X^~u'+ AP^{-1}X^~u= B$. Since $X= P^{-1}X^~$ is a solution to the homogeneous equation, $P^{-1}X^~'u+ AP^{-1}X^~u= (P^{-1}X^~'+ AP^{-1}X^~)u= 0$ and the equation reduces to $P^{-1}X^~u'= B$ so $u'= X^~^{-1}PB$. Integrate that to find u.

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