(New page: '''Pigeonhole Principle''' This principle states that, given two natural numbers n and m with n > m, if n items are put into m pigeonholes, then at least one pigeonhole must contain more ...)
 
 
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This principle states that, given two natural numbers n and m with n > m, if n items are put into m pigeonholes, then at least one pigeonhole must contain more than one item. Another way of stating this would be that m holes can hold at most m objects with one object to a hole; adding another object will force one to reuse one of the holes, provided that m is finite. More formally, the theorem states that there does not exist an injective function on finite sets whose codomain is smaller than its domain. In a family of three children there must be at least two of the same gender.
 
This principle states that, given two natural numbers n and m with n > m, if n items are put into m pigeonholes, then at least one pigeonhole must contain more than one item. Another way of stating this would be that m holes can hold at most m objects with one object to a hole; adding another object will force one to reuse one of the holes, provided that m is finite. More formally, the theorem states that there does not exist an injective function on finite sets whose codomain is smaller than its domain. In a family of three children there must be at least two of the same gender.
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If you want to make a new page, just type Pigeonhole Principle in the box in the upper left, and hit Go. If it comes up that the page doesn't exist, then just click to make a new page.--[[User:Norlow|Norlow]] 18:47, 6 February 2009 (UTC)
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(Feel free to delete this note after you read it)

Latest revision as of 13:47, 6 February 2009

Pigeonhole Principle

This principle states that, given two natural numbers n and m with n > m, if n items are put into m pigeonholes, then at least one pigeonhole must contain more than one item. Another way of stating this would be that m holes can hold at most m objects with one object to a hole; adding another object will force one to reuse one of the holes, provided that m is finite. More formally, the theorem states that there does not exist an injective function on finite sets whose codomain is smaller than its domain. In a family of three children there must be at least two of the same gender.




If you want to make a new page, just type Pigeonhole Principle in the box in the upper left, and hit Go. If it comes up that the page doesn't exist, then just click to make a new page.--Norlow 18:47, 6 February 2009 (UTC)

(Feel free to delete this note after you read it)

Alumni Liaison

Prof. Math. Ohio State and Associate Dean
Outstanding Alumnus Purdue Math 2008

Jeff McNeal