Use the numbers 2, 0, 1, and 8 (ALL of them...only ONE time each) to make every integer from 33 to 100.
You can generate any number X not just 1 to 100, like this
$x = \log_\sqrt{{\frac{2}{8}}}\left({\lg\underbrace{\sqrt{\sqrt{\dots\sqrt{\frac{0!}{.1}\,}\,}\,}}_\text{x square roots}}\right)$
Explanation
It works because...
$\log_\sqrt{{\frac{2}{8}}}\left({\lg\underbrace{\sqrt{\sqrt{\dots\sqrt{\frac{0!}{.1}\,}\,}\,}}_\text{x square roots}}\right)$ = $\log_\sqrt{{\frac{1}{4}}}\left({\lg\underbrace{\sqrt{\sqrt{\dots\sqrt{\frac{1}{\frac{1}{10}}\,}\,}\,}}_\text{x square roots}}\right)$ =
$\log_{\frac{1}{2}}\left({\lg\underbrace{\sqrt{\sqrt{\dots\sqrt{10\,}\,}\,}}_\text{x square roots}}\right)$ = $\log_{\frac{1}{2}}\left({\lg{10^{\frac{1}{2^x}}}}\right)$ = $\log_{\frac{1}{2}}\frac{1}{2^x}$ = $x$
Well, if we can use any mathematical operation...
I'll just use the successor function:
1 = $1+0*2*8$
2 = $S(1)+0*2*8$
3 = $S(S(1))+0*2*8$
4 = $S(S(S(1)))+0*2*8$
... I guess you get the point, this question is not constrained enough.
Partial answer
33 = Not here yet
34 = Not here yet
35 = 2 * 18 - 0!
36 = (2 + 0)(18)
37 = 2 * 18 + 0!
38 = 20 + 18
39 = Not here yet
40 = 8 * ((2 + 0!)! - 1)
