(New page: By definition W is a binomial random variable so it's distribution (PMF) can be represented by: P(W = m) = (n-k) ( m ) where m is the number of questions missed. P(W = m) = ...)
 
 
(One intermediate revision by the same user not shown)
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By definition W is a binomial random variable so it's distribution (PMF) can be represented by:
 
By definition W is a binomial random variable so it's distribution (PMF) can be represented by:
  
P(W = m) = (n-k)
+
P(W = m) = ((n-k) over m) where m is the number of questions missed.
          ( m )   where m is the number of questions missed.
+
 
  
 
P(W = m) = (4/5)^m *(1 - 4/5)^(n-k-m)
 
P(W = m) = (4/5)^m *(1 - 4/5)^(n-k-m)
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B) C = n - W
 
B) C = n - W
  
P(C) = k + (n-k) (1/5)^r * (1 - 1/5)^(n-k-r)
+
P(C) = k + ((n-k) over r) (1/5)^r * (1 - 1/5)^(n-k-r)
          ( r )
+

Latest revision as of 14:27, 23 September 2008

By definition W is a binomial random variable so it's distribution (PMF) can be represented by:

P(W = m) = ((n-k) over m) where m is the number of questions missed.


P(W = m) = (4/5)^m *(1 - 4/5)^(n-k-m)


B) C = n - W

P(C) = k + ((n-k) over r) (1/5)^r * (1 - 1/5)^(n-k-r)

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