Your first matrix has five rows and two columns; your second matrix has five rows and one column. If they have the same number of rows and the second always has one column you can do

```
mat1 * rep(mat2,ncol(mat1))
[,1] [,2]
[1,] -0.2327958 0.76093047
[2,] -0.3636661 -0.18991299
[3,] -0.8729468 0.58214118
[4,] 0.8017349 -0.59781909
[5,] -0.2230380 -0.08296606
```

If `mat1`

actually had as many elements in its rows as `mat2`

had in its single column (as your words suggest) you would adjust this slightly

```
mat1 <- matrix(rnorm(10), nrow=2, ncol=5)
mat2 <- matrix(rnorm(5), nrow=5, ncol=1)
mat1 * rep(mat2,nrow(mat1))
[,1] [,2] [,3] [,4] [,5]
[1,] -0.19818805 -0.05938007 -1.7792597 0.06937307 -0.7193403
[2,] -0.05087793 0.10781853 0.2243285 -0.11416273 2.4063926
```

or in sarah's version

```
mat1 <- matrix(rnorm(10), nrow=5, ncol=2)
mat2 <- matrix(rnorm(2), nrow=2, ncol=1)
mat1 * rep(mat2,nrow(mat1))
[,1] [,2]
[1,] 0.1528393 0.68646359
[2,] 0.2420454 0.22987250
[3,] -0.2592124 -0.07626098
[4,] 0.4431273 0.27320838
[5,] -0.1698307 0.47578667
```

`mat1 %*% mat2`

. But this requires the first matrix to have as many columns as the second has rows -- that is not the case in your example. – Vincent Zoonekynd Mar 15 '12 at 23:39