This can be solved using an eval-parse construct, although I strongly advice you **not** to use this construct. It often causes more problems than anything else. But I couldn't get a decent do.call way of doing it.

```
vector_of_functions = NULL
for (i in 1:4) {
vector_of_functions = c(vector_of_functions,
eval(parse(text=paste("function(number) func(number=number, coefficient=",i,")"))))
}
```

Reason is as Aaron explained: everything within the function definition is taken as is until the function evaluation.

Small remark: this is especially a **list** of functions, and not a vector. It's impossible to have a vector of type "function". It's also absolutely useless, as you have to select the function using the index [[]] before you can use it. Then I'd just add the argument instead of defining a function for every possible value of one of the arguments.

So what you want to achieve is unclear, but if you want to apply func with different coefficients, I wonder why you don't simply do:

```
> x <- c(10,20,30)
> sapply(1:4,function(y)func(number=x,coefficient=y))
[,1] [,2] [,3] [,4]
[1,] 10 20 30 40
[2,] 20 40 60 80
[3,] 30 60 90 120
```

A variation on the theme by Marek (avoiding the parsing):

```
vector_of_functions = NULL
for (i in 1:4) {
vector_of_functions = c(vector_of_functions,
eval(substitute(function(number) func(number=number, coefficient=i),list(i=i))))
}
```

The 1L etc. you get, just indicate they're exact integers (that take less memory space).