I have this matrix

```
a = {{2, -2, -4}, {-2, 5, -2}, {-4, -2, 2}}
```

I then solved an equation with one missing entry. The equation is of the form Inverse[p].a.p == q where p is the 3x3 matrix with the missing entry (x5) and q is a given 3x3 matrix.

```
Solve[Inverse[( {
{1/Sqrt[5], 4/(3 Sqrt[5]), -2/3},
{-2/Sqrt[5], 2/(3 Sqrt[5]), -2/6},
{0, x5, -2/3}
} )].a.( {
{1/Sqrt[5], 4/(3 Sqrt[5]), -2/3},
{-2/Sqrt[5], 2/(3 Sqrt[5]), -2/6},
{0, x5, -2/3}
} ) == ( {
{6, 0, 0},
{0, 6, 0},
{0, 0, -3}
} )]
```

Mathematica can solve this easily and I get x5 -> -(Sqrt[5]/3) as the result. However if I check it, the result ist very weird:

```
In[2]:= Inverse[( {
{1/Sqrt[5], 4/(3 Sqrt[5]), -2/3},
{-2/Sqrt[5], 2/(3 Sqrt[5]), -2/6},
{0, -Sqrt[5]/3, -2/3}
} )].a.( {
{1/Sqrt[5], 4/(3 Sqrt[5]), -2/3},
{-2/Sqrt[5], 2/(3 Sqrt[5]), -2/6},
{0, -Sqrt[5]/3, -2/3}
} )
Out[2]= {{6/5 - (2 (-(2/Sqrt[5]) - 2 Sqrt[5]))/Sqrt[5],
8/5 + (2 (-(2/Sqrt[5]) - 2 Sqrt[5]))/(3 Sqrt[5]), -(4/Sqrt[5]) +
1/3 (2/Sqrt[5] + 2 Sqrt[5])}, {-((
2 (-(8/(3 Sqrt[5])) + (4 Sqrt[5])/3))/Sqrt[5]) + (
4/(3 Sqrt[5]) + (4 Sqrt[5])/3)/Sqrt[5],
10/3 + (2 (-(8/(3 Sqrt[5])) + (4 Sqrt[5])/3))/(3 Sqrt[5]) + (
4 (4/(3 Sqrt[5]) + (4 Sqrt[5])/3))/(3 Sqrt[5]), (4 Sqrt[5])/3 +
1/3 (8/(3 Sqrt[5]) - (4 Sqrt[5])/3) -
2/3 (4/(3 Sqrt[5]) + (4 Sqrt[5])/3)}, {0, 0, -3}}
```

the expected result should be

```
( {
{6, 0, 0},
{0, 6, 0},
{0, 0, -3}
} )
```

like in the equation. If I calculate this by hand I get this result. What am I missing here?