ผลต่างระหว่างรุ่นของ "Probstat/notes/balls and bins"

รุ่นแก้ไขเมื่อ 03:43, 18 กันยายน 2557

This is part of probstat. The materials on this part is from this course at Berkeley.

We consider a balls-and-bins experiment where we throw n balls independently into n bins uniformly at random.

Question 1: How many possible outcomes are there?

Since each ball has n choices and their choices are independent, there are $n^{n}$ outcomes.

Question 2: What is the probability that bin 1 is empty?

In this case, each ball only have n - 1 choices (because they have to avoid bin 1); therefore there are $(n-1)^{n}$ outcomes where bin 1 is empty. Since each outcome is equally likely, the probability that bin 1 is empty is ${\frac {(n-1)^{n}}{n^{n}}}=\left({\frac {n-1}{n}}\right)^{n}=\left(1-{\frac {1}{n}}\right)^{n}$ .

Number of empty bins

Let random variable X be the number of empty bins.

{{{1}}}

It will be very hard to compute E[X] directly. (Just computing P{ X = 3 } seems to be exceedingly hard.)

@@ แถว 14: / แถว 14: @@
 Let random variable ''X'' be the number of empty bins.
-'''Question 1:''' ''What is P{ X'' = 0 }?''
+{{กล่องฟ้า|'''Question 1:''' ''What is P{ X'' = 0 }?''
 If there is no empty bin, every ball must land into different bin.  In this case, the first ball has n choices, the second ball has n-1 choices, and in general the ''i''-th ball has ''n - i +1'' choices.  Therefore, there are <math>n\cdot (n-1)\cdot(n-2)\cdots(2)(1) = n!</math> outcomes.  The probability is <math>\frac{n!}{n^n}</math>.
+}}
-It will be very hard to compute E[''X''] directly.
+It will be very hard to compute E[''X''] directly.  (Just computing ''P''{ ''X'' = 3 } seems to be exceedingly hard.)
 == Fullest bins ==

ผลต่างระหว่างรุ่นของ "Probstat/notes/balls and bins"

รุ่นแก้ไขเมื่อ 03:43, 18 กันยายน 2557

Number of empty bins

Fullest bins

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