Difference between revisions of "Arithmetic Mean-Geometric Mean Inequality"

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The '''Arithmetic Mean-Geometric Mean Inequality''' ('''AM-GM''') states that the [[arithmetic mean]] of a non-empty [[set]] of [[nonnegative]] [[real number]]s is greater than or equal to the [[geometric mean]] of the same set.  (Note that in this case the set of numbers is really a [[multiset]], with repetitions of elements allowed.)  For example, for the set <math>\{9,12,54\}</math>, the Arithmetic Mean, 25, is greater than the Geometric Mean, 18; AM-GM guarantees this is always the case. 
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#REDIRECT[[AM-GM Inequality]]
 
 
The [[equality condition]] of this [[inequality]] states that the AM and GM are equal if and only if all members of the set are equal.
 
 
 
In general, AM-GM states that for a set of nonnegative real numbers <math>a_1,a_2,\ldots,a_n</math>, the following always holds:
 
 
 
<math>\displaystyle\left(\frac{a_1+a_2+\ldots+a_n}{n}\right)\geq\sqrt[n]{a_1a_2\cdots a_n}</math>
 
 
 
The AM-GM inequalitiy is a specific case of the [[power mean inequality]].  Both can be used fairly frequently to solve Olympiad-level Inequality problems, such as those on the [[United States of America Mathematics Olympiad | USAMO]] and [[International Mathematics Olympiad | IMO]].
 
 
 
 
 
=== See also ===
 
 
 
* [[RMS-AM-GM-HM]]
 
* [[Algebra]]
 
* [[Inequalities]]
 
* [http://www.mathideas.org/problems/2006/5/29.pdf Basic Inequalities by Adeel Khan]
 
* [http://www.mathideas.org/problems/2006/5/31.pdf Inequalities: An Application of RMS-AM-GM-HM by Adeel Khan]
 

Latest revision as of 16:07, 29 December 2021

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