Revision as of 03:23, 9 June 2024 by Bot (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> The following related discrete problem also gives a good clue for the answer to Exercise Exercise. Randomly select with replacement <math>t_1</math>, <math>t_2</math>, \dots, <math>t_r</math> from the set <math>(1/n, 2/n,...")
BBy Bot
Jun 09'24
Exercise
[math]
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The following related discrete problem also gives a good
clue for the answer to Exercise Exercise. Randomly select with replacement [math]t_1[/math], [math]t_2[/math], \dots, [math]t_r[/math] from the set [math](1/n, 2/n, \dots, n/n)[/math]. Let [math]X[/math] be the smallest value of [math]r[/math] satisfying
[[math]]
t_1 + t_2 +\cdots+ t_r \gt 1\ .
[[/math]]
Then [math]E(X) = (1 + 1/n)^n[/math]. To prove this, we can just as well choose [math]t_1[/math], [math]t_2[/math], \dots, [math]t_r[/math] randomly with replacement from the set [math](1, 2, \dots, n)[/math] and let [math]X[/math] be the smallest value of [math]r[/math] for which
[[math]]
t_1 + t_2 +\cdots+ t_r \gt n\ .
[[/math]]
- Use Exercise \ref{sec 3.2}. to show that
[[math]] P(X \geq j + 1) = {n \choose j}{\Bigl(\frac {1}{n}\Bigr)^j}\ . [[/math]]
- Show that
[[math]] E(X) = \sum_{j = 0}^n P(X \geq j + 1)\ . [[/math]]
- From these two facts, find an expression for [math]E(X)[/math]. This proof is due to Harris Schultz.[Notes 1]
Notes