Two ships P and Q are travelling at night with constant velocities - Edexcel - A-Level Maths Mechanics - Question 7 - 2005 - Paper 1

The position vector of P at time t is given by: $p = (20i + 10j) + (3i + 8j)t = (20 + 3t)i + (10 + 8t)j$

The position vector of Q at time t is: $q = (14i - 6j) + (14i + 12j)t = (14 + (14t - 6))i + (-6 + 12t)j = (14 - 6 + 14t)i + (-6 + 12t)j$
Thus, $p = (20 + 3t)i + (10 + 8t)j$
$q = (14 - 6 + 14t)i + (-6 + 12t)j$

To find the distance between P and Q, we calculate: $d^2 = |q - p|^2$ where $q - p = (-6i - 3j) + (-16 + 4t)j$. This simplifies to: $q - p = (-6i - 3j) + (-16 + 4t)j$ Now, substituting p and q:

We know that the observer on P can see the lights when: $d^2 ext{ is less than or equal to } 15^2 = 225.$ Substituting in the distance squared expression: $25t^2 - 92t + 292 ext{ must be less than or equal to } 225$ This simplifies to: $25t^2 - 92t + 67 = 0$ Using the quadratic formula: $t = \frac{-b \pm \sqrt{b^2 - 4ac}}{2a}$
where $a = 25, b = -92, c = 67$. Solving this gives:
$t = \frac{92 \pm \sqrt{(-92)^2 - 4 \times 25 \times 67}}{2 \times 25}$
Calculating this gives approximate time in minutes, rounding to the nearest minute leads to: $t = 162 ext{ mins or approximately 2 hrs and 41 mins or 041 am.}$