Answer
$Amplitude = |1| = 1$
$Period = \frac{2\pi}{\pi} = 2$
$Horizontal\ shift = (–\frac{–\frac{\pi}{2}}{\pi}) = \frac{1}{2}$
$Phase = –\frac{\pi}{2}$
Work Step by Step
If C is any real number and $B> 0$, then the graphs of $y = A\sin(Bx+C)$ and $y = A\cos (Bx+C)$ will have
$Amplitude = |A|$
$Period = \frac{2\pi}{B}$
$Horizontal\ shift = –\frac{C}{B}$
$Phase = C$
so for $y =\sin (\pi x – \frac{\pi}{2})$
$Amplitude = |1| = 1$
$Period = \frac{2\pi}{\pi} = 2$
$Horizontal\ shift = (–\frac{–\frac{\pi}{2}}{\pi}) = \frac{1}{2}$
$Phase = –\frac{\pi}{2}$