How to prove this inequality?
$$\left(\frac{x_1}{x_2}\right)^{4}+\left(\frac{x_2}{x_3}\right)^{4}+\dotsb+\left(\frac{x_n}{x_1}\right)^{4}\geq \frac{x_1}{x_5}+\frac{x_2}{x_6}+\dotsb+\frac{x_{n-3}}{x_1}+\frac{x_{n-2}}{x_2}+\frac{x_{n-1}}{x_3}+\frac{x_n}{x_4},$$ where $x_1, x_2, \dotsc, x_n>0.$
2026-03-30 10:23:41.1774866221
Prove that $\sum\limits_{i=1}^n\left(\frac{x_i}{x_{i+1}}\right)^{4}\geq\sum\limits_{i=1}^n\frac{x_i}{x_{i+4}}$
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Let $\frac{x_1}{x_2}=y_1$, $\frac{x_2}{x_3}=y_2$, $\frac{x_3}{x_4}=y_3$, $\frac{x_4}{x_5}=y_4$,...
Hence, $\prod\limits_{i=1}^ny_i=\frac{x_1}{x_{n+1}}$ and we need to prove that $$\sum_{i=1}^ny_i^4\geq\sum_{i=1}^ny_iy_{i+1}y_{i+2}y_{i+3},$$ which is just AM-GM: $$\sum_{i=1}^ny_i^4=\frac{1}{4}\sum_{i=1}^n(y_i^4+y_{i+1}^4+y_{i+2}^4+y_{i+3}^4)\geq\sum_{i=1}^ny_iy_{i+1}y_{i+2}y_{i+3}$$. Done!