Show $\tan(x)+\tan(y)+\tan(z) = \tan(x) \tan(y) \tan(z)$

Question

I am not able to show that:

If $x+y+z=\pi$, show that $\tan(x) + \tan(y) + \tan(z) = \tan(x) \tan(y) \tan(z)$.

Answer 1

A reasonable first step is to take the tangent of both sides of what you've been given; that gives $$ \tan(x+y+z) = 0 \tag{$\ast$} $$ Now you have something involving the tangent of a sum of some numbers, and want something involving the tangents of the numbers themselves. Lucky for us, there are standard formulas for that. Usually you'll see one with two summands: $$ \tan(a+b) = \frac{\tan(a) + \tan(b)}{1 - \tan(a)\tan(b)} $$ On the left, tangent of sum; on the right, tangents of the summands. To apply this to ($\ast$), take, say, $a=x$ and $b=y+z$ and see where you end up.

Answer 2

$ tan(x+y+z) = \frac{tan(x+y)+tan(z)}{1 - tan(x+y) . tan(z)}$ $ = \frac{\frac{tan(x) + tan(y)}{1-tan(x)tan(y)}+tan(z)}{1-\frac{tan(x) + tan(y)}{1-tan(x)tan(y)}.tan(z)}$ $ = \frac{tan(x)+tan(y)+tan(z) - tan(x)tan(y)tan(z)}{1-tan(x)tan(y)-tan(y)tan(z)-tan(z)tan(x)}$

Now, $tan(x+y+z) = tan(\pi) = 0 $, So,

$tan(x)+tan(y)+tan(z) - tan(x)tan(y)tan(z) = 0$.

$ \implies tan(x)+tan(y)+tan(z) = tan(x)tan(y)tan(z) $

Answer 3

Given $x+y+z = \pi\Rightarrow x+y = \pi-z$

Now taking $\tan$ on both side, we get $$\tan (x+y) = \tan(\pi-z) = -\tan z$$

So $$\displaystyle \frac{\tan x+\tan y}{1-\tan x\cdot \tan y} = -\tan z\Rightarrow \tan x+\tan y = -\tan z+\tan x\cdot \tan y\cdot \tan z$$

So we get $$\tan x+\tan y +\tan z = \tan x \cdot \tan y \cdot \tan z$$