Power Mean Inequality
The Power Mean Inequality is a generalized form of the multi-variable Arithmetic Mean-Geometric Mean Inequality.
Inequality
For positive real numbers and positive real weights with sum , define the function with
The Power Mean Inequality states that for all real numbers and , if . In particular, for nonzero and , and equal weights (i.e. ), if , then
The Power Mean Inequality follows from the fact that together with Jensen's Inequality.
Proof
We prove by cases:
1. for
2. for with
Case 1:
Note that As is concave, by Jensen's Inequality, the last inequality is true, proving . By replacing by , the last inequality implies as the inequality signs flip after multiplication by .
Case 2:
For , As the function is concave for all , by Jensen's Inequality, For , the inequality sign in is flipped, but becomes convex as , and thus the inequality sign when applying Jensen's Inequality is also flipped.