I have a function `f(t)=2/(2-t)`

. It is not so hard to get the rth derivative at t=0 (i.e. `2^(-r)*r!`

) without using Mathematica. In the case of Mathematica calculation, I can get the r-th derivative when r=4 like this: `D[2/(2-t), {t, 4}]`

. But how can I get the rth derivative at t=0 in Mathematica when r is ANY integer? I tried to use this expression, but it didn't work as expected:

```
Simplify[D[2/(2 - t), {t, r}], Assumptions -> Element[r, Integers]] /. {t->0}
```

Is it possible to do the above math symbolically in Mathematica just as we humans do?

`diff(x^4, x$n);`

results in`pochhammer(5-n,n)*x^(4-n)`

;`diff(sin(x), x$n);`

gives`sin(x+1/2*n*Pi)`

. – Kerrek SB Nov 26 '11 at 12:30