Difference between revisions of "Power Mean Inequality"

Revision as of 01:17, 17 March 2017

The Power Mean Inequality is a generalized form of the multi-variable Arithmetic Mean-Geometric Mean Inequality.

Inequality

For real numbers $k_1,k_2$ and positive real numbers $a_1, a_2, \ldots, a_n$ , $k_1\ge k_2$ implies the $k_1$ th power mean is greater than or equal to the $k_2$ th.

Algebraically, $k_1\ge k_2$ implies that $\sqrt[k_1]{\frac{a_{1}^{k_1}+a_{2}^{k_1}+\cdots +a_{n}^{k_1}}{n}}\ge \sqrt[k_2]{\frac{a_{1}^{k_2}+a_{2}^{k_2}+\cdots +a_{n}^{k_2}}{n}}$

which can be written more concisely as $\sqrt[k_1]{\frac{\sum\limits_{i=1}^n a_{i}^{k_1}}{n}}\ge \sqrt[k_2]{\frac{\sum\limits_{i=1}^n a_{i}^{k_2}}{n}}$

The Power Mean Inequality follows from the fact that $\frac{\partial M(t)}{\partial t}\geq 0$ (where $M(t)$ is the $t$ th power mean) together with Jensen's Inequality.

This article is a stub. Help us out by expanding it.

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 </cmath>
-The Power Mean Inequality follows from the fact that <math>\frac{\partial M(t)}{\partial t}\geq 0</math> (where <math>M(x)</math> is the <math>t</math>th power mean) together with [[Jensen's Inequality]].
+The Power Mean Inequality follows from the fact that <math>\frac{\partial M(t)}{\partial t}\geq 0</math> (where <math>M(t)</math> is the <math>t</math>th power mean) together with [[Jensen's Inequality]].
 {{stub}}
 [[Category:Inequality]]
 [[Category:Theorems]]

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Difference between revisions of "Power Mean Inequality"

Revision as of 01:17, 17 March 2017

Inequality