It's not totally clear, but if you want to find the `max`

for each matrix of the third dimension (is that even a technically right thing to say?), then you need to use `apply`

across the third dimension. The argument `margin`

under `?apply`

states that:

a vector giving the subscripts which the function will be applied over. E.g., for a matrix 1 indicates rows, 2 indicates columns, c(1, 2) indicates rows and columns.

So for this example where you have a 3D array, `3`

is the third dimension. So...

```
t( apply( x , 3 , function(x) which( x == max(x) , arr.ind = TRUE ) ) )
[,1] [,2]
[1,] 3 4
[2,] 3 4
[3,] 3 4
```

Which returns a matrix where each row contains the row and then column index of the max value of each 2D array/matrix of the third dimension.

If you want the `max`

across *all* dimensions you can use `which`

and the `arr.ind`

argument like this:

```
which( x==max(x,na.rm=T) , arr.ind = T )
dim1 dim2 dim3
[1,] 3 4 2
```

Which tells us the `max`

value is the third row, fourth column, second matrix.

### EDIT

To find the position at dim 3 where where values on dim 1 and 2 are max try:

```
which.max( apply( x , 3 , max ) )
# [1] 2
```

Which tells us that at position 2 of the third dimension contains the maximal value.