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Will Orrick (talk | contribs) Restored revision 1262272865 by Will Orrick (talk): Remove duplicated paragraphs |
m replaced the word "simple" with "a variety of". This is often covered in a 2nd semester university discrete math course, which means many students would not consider it simple. |
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{{short description|Graphical aid for deriving some concepts in combinatorics}}
In [[combinatorics]], '''stars and bars''' (also called "sticks and stones",<ref>{{Cite book|last=Batterson|first=J|title=Competition Math for Middle School|publisher=Art of Problem Solving}}</ref> "balls and bars",<ref>{{cite book|last1=Flajolet|first1=Philippe|last2=Sedgewick|first2=Robert|date=June 26, 2009|title=Analytic Combinatorics|publisher=Cambridge University Press|isbn = 978-0-521-89806-5}}</ref> and "dots and dividers"<ref name=":0">{{Cite web|title=Art of Problem Solving|url=https://artofproblemsolving.com/wiki/index.php/Ball-and-urn|access-date=2021-10-26|website=artofproblemsolving.com}}</ref>) is a graphical aid for deriving certain [[combinatorial]] theorems. It can be used to solve
If, for example, there are two balls and three bins, then the number of ways of placing the balls is <math>\tbinom{2+3-1}{3-1} = \tbinom{4}{2} = 6</math>. The table shows the six possible ways of distributing the two balls, the strings of stars and bars that represent them (with stars indicating balls and bars separating bins from one another), and the subsets that correspond to the strings. As two bars are needed to separate three bins and there are two balls, each string contains two bars and two stars. Each subset indicates which of the four symbols in the corresponding string is a bar.
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