Question

A triangle has two corners with angles of `pi / 2` and `( pi )/ 8`. If one side of the triangle has a length of `9`, what is the largest possible area of the triangle?

Answer 1

`81/2(\sqrt2+1)=97.776\ \text{unit}^2`

Explanation:

Let the angles of a `\triangle ABC` are `A=\pi/2`, `B=\pi/8` hence third angle `C` is

`C=\pi-\pi/2-\pi/8`

`={3\pi}/8`

The area of given triangle will be largest only when the given side say `b=9` is opposite to the smallest angle `B={pi}/8`

Now, using sine rule in given triangle as follows

`\frac{b}{\sin B}=\frac{c}{\sin C}`

`\frac{9}{\sin (\pi/8)}=\frac{c}{\sin ({3\pi}/8)}`

`c=\frac{9\sin({3\pi}/8)}{\sin(\pi/8)}`

`=9(\sqrt2+1)`

Hence, the largest area of given right triangle with legs `9` & `9(\sqrt2+1)` is given as

`=1/2(9)(9(\sqrt2+1))`

`=81/2(\sqrt2+1)`

`=97.776\ \text{unit}^2`