The specifications for how to combine `a`

and `b`

aren't clear. Here is one way to do it.

Create a single column vector built from `a`

and `b`

. Then `reshape`

that column vector into a matrix.

```
c = reshape( [ a(:); b(:) ], 8, 15);
```

This will **only** work if the `numel(a) + numel(b)`

equals the total number of elements in `c`

.

Attempts to execute `c = reshape( [ a(:); b(:) ], 7,12);`

will **fail** as you aren't providing enough elements to create an `7x12`

matrix.

**Update**
Noufal's comment on this answer changes the problem reqs a bit. Basically you stil create the column vector but you only populate C depending on how many elements you have at your disposal:

```
A = rand(5,6);
B = rand(2,45);
C = zeros(8,10);
tmp = [A(:); B(:)]; % create temporary column vector
maxIdx = min( [numel(tmp), numel(C)] ); % determine if tmp or C has fewer elements
C(1:maxIdx) = tmp(1:maxIdx); % fill C from tmp using indices 1:maxIdx
```

`c`

? Should the order of elements in`a`

and`b`

be preserved? – slayton Jan 16 '13 at 17:10`a = [1 4 6;5 8 0;3 7 9;4 10 5], b = [5 6;5 0], c = [1 4 6 5;8 0 3 7;9 4 10 5;5 6 5 0]`

– noufal Jan 16 '13 at 17:48