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How does one solve the matrix equation $AX+XB=C$ for $X$? It doesn't seem too difficult. I tried many times but failed.

I'm an adult student... I am now vexed about Gilbert Strang - An Introduction to Linear Algebra. I don't even understand a single word in Wikipedia: Sylvester equation. If you have ever use some nice workable materials or lecture notes? You can generously upload and share the links of the lecture notes and assignments. Different subjects/ topics are welcome, as long as you deem they are nice and workable.

The problem origins from a system of diff equation, using undetermined coefficients (matrix) to find the particular solution. Try $y_p=X\begin{pmatrix} e^{\alpha t} \\ e^{\beta t} \end{pmatrix}$

$\dot{y}+Ay=C\begin{pmatrix} e^{\alpha t} \\ e^{\beta t}\end{pmatrix}$

$\dot{y_p}=X\begin{pmatrix} \alpha & 0 \\ 0 & \beta \end{pmatrix} \begin{pmatrix}e^{\alpha t} \\ e^{\beta t}\end{pmatrix}$

substitute $\dot{y_p}$ and $y_p$ into the original differential equation..

$X\begin{pmatrix} \alpha & 0 \\ 0 & \beta \end{pmatrix}+AX=C$

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    What you have there is a [Sylvester equation](http://en.wikipedia.org/wiki/Sylvester_equation) for which many solution methods are known.2012-08-25
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    Are in interested in solving the matrix equation to solve the differential equation, or in its own right?2012-08-25
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    I think this question was asked here on math.SE before, but I can't find the link.2012-08-25
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    "I don't even understand a single word in Wikipedia" - fine... do you at least know what a Kronecker product is? Or, better yet, what part of the Wiki article do you not understand?2012-08-25
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    @JenniferDylan: I think the closest thing is this, but it's not exactly a duplicate, since it has no free term: http://math.stackexchange.com/questions/39906/solving-a-matrix-equation-ax-xb-in-a-cas2012-08-25
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    It seems I'm seriously incapable. It is better to suggest me some materials or books rather than just give a solution to my problem. I’d like to contact J.M. also...2012-08-26

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