I have troubles solving this task:
Let $U_1,U_2,\dots$ be an i.i.d. sequence of random variables with uniform distribution on $[0,1]$. We set for every integer $n\geq 1$ $$M_n=\max\{1/\sqrt{U_1},\dots,1/\sqrt{U_n}\}$$
Compute the distribution function $F_n(x)=P(M_n\leq x)\quad \text{for } x\geq 0$
What I have so far:
Since $U_i$ are i.i.d. we have $$P(M_n\leq x)=P(1/\sqrt{U_1}\leq x)^n=P(\frac{1}{x^2}\leq U_1)^n=\int_{x^{-2}}^\infty \mathbb{1}_{[0,1]}\mathrm{d}x$$ but here I get stucked. I don't know what to do. I think I have to do a substitution but this confuses me since I do not have a variable in the integrand?