I think I need to make this a full answer because I find comments harder to track and I already lost one comment on this... There is an example by nullglob that demonstrates the differences among for, and apply family functions much better than other examples. When one makes the function such that it is very slow then that's where all the speed is consumed and you won't find differences among the variations on looping. But when you make the function trivial then you can see how much the looping influences things.

I'd also like to add that some members of the apply family unexplored in other examples have interesting performance properties. First I'll show replications of nullglob's relative results on my machine.

```
n <- 1e6
system.time(for(i in 1:n) sinI[i] <- sin(i))
user system elapsed
5.721 0.028 5.712
lapply runs much faster for the same result
system.time(sinI <- lapply(1:n,sin))
user system elapsed
1.353 0.012 1.361
```

He also found sapply much slower. Here are some others that weren't tested.

Plain old apply to a matrix version of the data...

```
mat <- matrix(1:n,ncol =1),1,sin)
system.time(sinI <- apply(mat,1,sin))
user system elapsed
8.478 0.116 8.531
```

So, the apply() command itself is substantially slower than the for loop. (for loop is not slowed down appreciably if I use sin(mat[i,1]).

Another one that doesn't seem to be tested in other posts is tapply.

```
system.time(sinI <- tapply(1:n, 1:n, sin))
user system elapsed
12.908 0.266 13.589
```

Of course, one would never use tapply this way and it's utility is far beyond any such speed problem in most cases.