exercise:D9d70350c9: Difference between revisions

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(Created page with "<div class="d-none"><math> \newcommand{\NA}{{\rm NA}} \newcommand{\mat}[1]{{\bf#1}} \newcommand{\exref}[1]{\ref{##1}} \newcommand{\secstoprocess}{\all} \newcommand{\NA}{{\rm NA}} \newcommand{\mathds}{\mathbb}</math></div> Let <math>T</math> be the random variable that counts the number of 2-unshuffles performed on an <math>n</math>-card deck until all of the labels on the cards are distinct. This random variable was discussed in Section \ref{sec 3.3}. Using gui...")
 
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Let <math>T</math> be the random variable that counts the number of 2-unshuffles performed on an <math>n</math>-card deck
Let <math>T</math> be the random variable that counts the number of 2-unshuffles performed on an <math>n</math>-card deck
until all of the labels on the cards are distinct.  This random variable was discussed in
until all of the labels on the cards are distinct.  This random variable was discussed in
Section \ref{sec 3.3}.  Using [[guide:21bfd24860#eq 3.3.1 |Equation]] in that section, together with the formula
[[guide:21bfd24860|Card Shuffling]].  Using [[guide:21bfd24860#eq 3.3.1 |Equation]] in that section, together with the formula


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E(T) = \sum_{s = 0}^\infty \left(1 - {{2^s}\choose n}\frac {n!}{2^{sn}}\right)\ .
E(T) = \sum_{s = 0}^\infty \left(1 - {{2^s}\choose n}\frac {n!}{2^{sn}}\right)\ .
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Show that for <math>n = 52</math>, this expression is approximately equal to 11.7.  (As was stated in
Show that for <math>n = 52</math>, this expression is approximately equal to 11.7.  (As was stated in [[guide:1cf65e65b3|Combinatorics]], this means that on the average, almost 12 riffle shuffles of a 52-card deck are required in order for the process to be considered random.)
Chapter~\ref{chp 3}, this means that on the average, almost 12 riffle shuffles of a 52-card  
deck are required in order for the process to be considered random.)

Revision as of 17:23, 14 June 2024

Let [math]T[/math] be the random variable that counts the number of 2-unshuffles performed on an [math]n[/math]-card deck until all of the labels on the cards are distinct. This random variable was discussed in Card Shuffling. Using Equation in that section, together with the formula

[[math]] E(T) = \sum_{s = 0}^\infty P(T \gt s) [[/math]]

that was proved in Exercise Exercise, show that

[[math]] E(T) = \sum_{s = 0}^\infty \left(1 - {{2^s}\choose n}\frac {n!}{2^{sn}}\right)\ . [[/math]]

Show that for [math]n = 52[/math], this expression is approximately equal to 11.7. (As was stated in Combinatorics, this means that on the average, almost 12 riffle shuffles of a 52-card deck are required in order for the process to be considered random.)

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