(New page: == Part A == Can anyone explain how to show that <math> n \left(\!\!\! \begin{array}{c} n-1 \\ k-1 \end{array} \!\!\!\right) </math> counts the number of ways to select a subset with ''k'...)
 
 
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counts the number of ways to select a subset with ''k'' elements from a set with ''n'' elements and then an element of the subset? The left hand side of the identity in the problem obviously counts this, but I can't see how they are counting the same thing.
 
counts the number of ways to select a subset with ''k'' elements from a set with ''n'' elements and then an element of the subset? The left hand side of the identity in the problem obviously counts this, but I can't see how they are counting the same thing.
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This method has you select the element first, then form a subset containing k elements around it. Since you've already selected your element, you collect the rest of the subset by choosing k-1 from the n-1 remaining elements.

Latest revision as of 05:59, 17 September 2008

Part A

Can anyone explain how to show that $ n \left(\!\!\! \begin{array}{c} n-1 \\ k-1 \end{array} \!\!\!\right) $ counts the number of ways to select a subset with k elements from a set with n elements and then an element of the subset? The left hand side of the identity in the problem obviously counts this, but I can't see how they are counting the same thing.


This method has you select the element first, then form a subset containing k elements around it. Since you've already selected your element, you collect the rest of the subset by choosing k-1 from the n-1 remaining elements.

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