Use a SEPARATE writing booklet - HSC - SSCE Mathematics Extension 2 - Question 13 - 2015 - Paper 1

To find the equation of line $PQ$ between points $P(\sec\theta, b\tan\theta)$ and $Q(a\tan\theta, b\sec\theta)$:

1. Calculate slope $m$:
   $m = \frac{b\sec\theta - b\tan\theta}{a\tan\theta - \sec\theta}$
   Rearranging gives:
   $m = b(\sec\theta - \tan\theta)$.
2. Using point-slope form of a line, substitute in point $P$ and the slope: [ y - b\tan\theta = m(x - \sec\theta) ]
3. After simplification, arrive at the equation:
   $bx + ay = ab(\tan\theta + \sec\theta)$.

To prove the area of triangle $\Delta OPQ$ is independent of $\theta$, we can express the area formula:

1. The area $A$ of triangle formed by points $O(0, 0)$, $P(\sec\theta, b\tan\theta)$, and $Q(a\tan\theta, b\sec\theta)$ is given by: [ A = \frac{1}{2} \left| x_1(y_2 - y_3) + x_2(y_3 - y_1) + x_3(y_1 - y_2) \right| ] where $(x_1,y_1) = (0,0)$, $(x_2,y_2) = (\sec\theta, b\tan\theta)$, and $(x_3,y_3) = (a\tan\theta, b\sec\theta)$.
2. On substituting and simplifying: [ A = \frac{1}{2} \left| \sec\theta(b\sec\theta) - a(b\tan\theta) \right| ] Simplifying further yields a result where terms involving $\theta$ cancel out, proving that $A$ does not depend on $\theta$.