(New page: how to differentiate Now suppose we had only one coin but its ''p'' could have been any value 0 ≤ ''p'' ≤ 1. We must maximize the likelihood function: :<math> L(\theta) = f_D(\mat...)
 
 
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how to differentiate to get the maximum after using the binomial RV
  
how to differentiate
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this is an example from the wiki
  
 
Now suppose we had only one coin but its ''p'' could have been any value 0 &le; ''p'' &le; 1. We must maximize the likelihood function:
 
Now suppose we had only one coin but its ''p'' could have been any value 0 &le; ''p'' &le; 1. We must maximize the likelihood function:

Latest revision as of 18:15, 10 November 2008

how to differentiate to get the maximum after using the binomial RV

this is an example from the wiki

Now suppose we had only one coin but its p could have been any value 0 ≤ p ≤ 1. We must maximize the likelihood function:

$ L(\theta) = f_D(\mathrm{H} = 49 \mid p) = \binom{80}{49} p^{49}(1-p)^{31} $

over all possible values 0 ≤ p ≤ 1.

One way to maximize this function is by differentiating with respect to p and setting to zero:

$ \begin{align} {0}&{} = \frac{\partial}{\partial p} \left( \binom{80}{49} p^{49}(1-p)^{31} \right) \\ & {}\propto 49p^{48}(1-p)^{31} - 31p^{49}(1-p)^{30} \\ & {}= p^{48}(1-p)^{30}\left[ 49(1-p) - 31p \right] \\ & {}= p^{48}(1-p)^{30}\left[ 49 - 80p \right] \end{align} $

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