# Tricky trig solution

We received quite a few correct solutions for this month's puzzle. In case it defeated you, the key was to look for symmetries in the information you are given, and to use

*similar triangles.*

## Part I

With and as in the diagram, , so it is sufficient to find . By similar triangles, as , so

By Pythagoras' Theorem,

## Part II

There are a number of approaches to this problem, but the one presented here follows from the observation that the information given is left-right symmetric - in other words, finding the two vertical heights will be equally easy (or hard!). We will label these two heights and , as in the diagram.

By similar triangles, and dividing up into two segments and , we see that as and as ; therefore

Using Pythagoras' Theorem, we draw a triangle to represent this relationship:

On its own, the information in this diagram is not enough to solve the triangle - for that, we would need one more bit of information. But now we can use the identity All we have to do is find some combination of trig functions of that takes the form . Since and , it is easy to see that