Stirling's formula probability

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indigojoker
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Use Stirling's formula, n!=sqrt(2 pi n) n^n e^{-n}, to estimate the probability that all 50 states are represneted in a group of 50 councilmen chosen at random.

I think it should be:

[tex]P=\frac{50!}{50^{50}}[/tex]

So using Stirling's formula, we get:

[tex]P=\frac{\sqrt{2 \pi 50} 50^{50} e^{-50}}{50^{50}}[/tex]
[tex]P=\sqrt{2 \pi 50} e^{-50}[/tex]

is this the correct approach?
 
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indigojoker said:
Use Stirling's formula, n!=sqrt(2 pi n) n^n e^{-n}, to estimate the probability that all 50 states are represneted in a group of 50 councilmen chosen at random.

I think it should be:

[tex]P=\frac{50!}{50^{50}}[/tex]

So using Stirling's formula, we get:

[tex]P=\frac{\sqrt{2 \pi 50} 50^{50} e^{-50}}{50^{50}}[/tex]
[tex]P=\sqrt{2 \pi 50} e^{-50}[/tex]

is this the correct approach?
Presuming each councilman represents one of the 50 states, your work is correct!