Real analysis

[rondo09]

{{\lim_{\substack{x\rightarrow\pi}} {\left( \frac {x}{x-\pi}{\int_{\pi}^{x} }\frac{sin t}{t}} dt\right)}

[HallsofIvy]

First, of course, that "x" outside the integral goes to \pi. The only problem is
\lim_{x\to\pi}\frac{\int_\pi^x \frac{sin(t)}{t} dt}{x- \pi}
which gives the "0/0" indeterminate form.

Use L'Hopital's rule to find that limit.

[mathman]

First, of course, that "x" outside the integral goes to \pi. The only problem is
\lim_{x\to\pi}\frac{\int_\pi^x \frac{sin(t)}{t} dt}{x- \pi}
which gives the "0/0" indeterminate form.

Use L'Hopital's rule to find that limit.
The expression is simply the derivative of the integral, i.e. the integrand at π, which is sin(π)/π = 0.