I am looking for a proof of the inequality as follows:

>>Let $A_1A_2....A_n$ be the regular polygon incribed in a circle $(O)$ with radius $R$. Let $B_1B_2....B_n$ be a polygon incribed the circle $(O)$. I conjecture that:

>>$$\sum_{i<j} A_iA_j^\alpha \ge \sum_{i<j} B_iB_j^\alpha $$

Where $ 1 \leq \alpha \leq 2$

* The case $ \alpha = 1 $ was proved in our paper in [here](https://ijgeometry.com/wp-content/uploads/2017/07/1.pdf)

* The case $ \alpha = 2 $ was proved in our paper in [here](https://mathoverflow.net/questions/304456/an-inequality-of-a-cyclic-polygon)

**Example:** 

* $n=3$, let $ABC$ be a triangle with sidelength $a, b, c$ then we have the inequality as follows:

$$a^\alpha + b^\alpha+ c^\alpha \leq 3\times 3^{\frac{\alpha}{2}}R^\alpha$$
Where $ 1 \leq \alpha \leq 2$

**See also:**