I want to calculate the integral which is dependent on the parameters $a$ and $b$ ($a,b \gt0)$.

$\int_{0}^{\infty} \frac {b \sin (ax) - a \sin (bx)}{x^2}dx$

This integral is solved in my textbook but I don't understand how and why like this:

$ab \int_{0}^{\infty} \frac {b \sin (ax- a \sin (bx)}{abx^2}dx=ab \int_{0}^{\infty} \frac {1}{x} (\frac {\sin (ax)}{ax} - \frac { \sin (bx)}{bx})dx = ab \ln (\frac {b}{a})$

$f(x) = \frac {1}{x}$, ${}$ $\lim_{\to \infty} \frac {sinx}{x}=0$, ${}$ $\lim_{\to 0^+} \frac {sinx}{x}=1$

I just can't see it how they calculated it. Thanks.