# Generalized Eigenvalue in Mathematica

I am trying to solve a generalized eigenvalue problem with Mathematica. I want to find the eigenvalues and eigenvectors of the matrix A with respect to B. But when I use `Eigensystem` I receive the following error.

``````A = {{1, 2, 3}, {3, 6, 8}, {5, 9, 2}}
B = {{3, 5, 7}, {1, 7, 9}, {4, 6, 2}}
Eigensystem[{A, B}]

Eigensystem::exnum: Eigensystem has received a matrix with non-numerical or exact
elements. >>
``````

What should I do?

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If you make the change `Eigensystem[{a,b}//N]` so that the matrix entries are not exact numbers, Mma does not complain and gives `{{1.63593, 0.525975, 0.0111747}, {{0.0936814, 0.782546, -0.615505}, {-0.84891, 0.357536, 0.389254}, {0.8701, -0.491321, 0.0391061}}}` as the answer. –  kguler Dec 26 '11 at 13:19
Thanks buddy...!! –  Harmeet Singh Dec 26 '11 at 13:25
how do you differentiate between eigenvectors and eigenvalues ? (sorry I am very new to mathematica) –  flow Mar 9 '12 at 17:32

Well, as for what you can, you can throw an `N[]` there.

As why you get the error you do, I am not sure now. may be someone else knows.

``````A={{1,2,3},{3,6,8},{5,9,2}};
B={{3,5,7},{1,7,9},{4,6,2}};
Eigensystem[{N@A,N@B}]

Out[48]= {{1.6359272851306594,0.52597489217711,0.011174745769153706},
{{0.0936814383974197,0.7825455672726674,-0.6155048523299302},
{-0.8489102791046691,0.3575364071543101,0.389254486922913},
{0.8701002165041747,-0.4913210011447429,0.03910610020848224}}}
``````
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Thanku...it works..! –  Harmeet Singh Dec 26 '11 at 13:27

Copying directly from these answers, with invertible matrices you can use this to get exact results as `Root` objects:

``````A = {{1, 2, 3}, {3, 6, 8}, {5, 9, 2}};
B = {{3, 5, 7}, {1, 7, 9}, {4, 6, 2}};

Eigensystem[Inverse[B].A] // RootReduce
``````
```{{Root[-1 + 92 #1 - 226 #1^2 + 104 #1^3 &, 3],
Root[-1 + 92 #1 - 226 #1^2 + 104 #1^3 &, 2],
Root[-1 + 92 #1 - 226 #1^2 + 104 #1^3 &, 1]},
{{Root[-1418 - 9903 #1 - 3824 #1^2 + 192 #1^3 &, 2],
Root[-2817 + 627 #1 + 2480 #1^2 + 192 #1^3 &, 2], 1},
{Root[-1418 - 9903 #1 - 3824 #1^2 + 192 #1^3 &, 1],
Root[-2817 + 627 #1 + 2480 #1^2 + 192 #1^3 &, 3], 1},
{Root[-1418 - 9903 #1 - 3824 #1^2 + 192 #1^3 &, 3],
Root[-2817 + 627 #1 + 2480 #1^2 + 192 #1^3 &, 1], 1}}}```
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