If $A+B+C=\pi$ :
$$ \sin A + \sin B + \sin C \le \frac{3\sqrt{3}}{2} \\ \cos A + \cos B + \cos C \le \frac{3}{2} \\ \tan A + \tan B + \tan C \le 3\sqrt{3} $$
with the equalities holding in the case of an equilateral triangle ($A=B=C=\frac{\pi}{3}$). I've also found out that of all the triangles inscribed in a circle, an equilateral triangle has the largest area.
Why does the maximum of the things I've described exist in the case of an equilateral triangle ? Is it just so or is there a reason for this fact ? Whenever I encounter a question which asks me to maximize something in the case of a triangle, I've taken to simply taking it as an equilateral triangle. Is this safe ? And what are the other situations in which the maximum of something is obtained in the case of an equilateral triangle ?
for 1) we have $$\frac{\sin(A)+\sin(B)+\sin(C)}{3}\le \sin\left(\frac{A+B+C}{3}\right)$$ for 2) we have $$\cos(A)+\cos(B)+\cos(C)=1+\frac{r}{R}$$