Using the Hypergeometric distribution principle, the probability of X = 3 in the function is 0.4396
Defining an hypergeometric distribution function :
[tex]P(X = k) = \frac{ \binom{r}{k} \binom{N - r}{n - k} }{ \binom{N}{n} } [/tex]
The parameters given :
[tex]P(X = 3) = \frac{ \binom{4}{3} \binom{15 - 4}{10 - 3} }{ \binom{15}{10} } = \frac{ \binom{4}{3} \binom{11}{7} }{ \binom{15}{10} }[/tex]
Using Combination :
Recall : nCr = n! ÷ (n-r)!r!
Using a calculator :
[tex]P(X = 3) = \frac{ \binom{4}{3} \binom{15 - 4}{10 - 3} }{ \binom{15}{10} } = \frac{ \binom{4}{3} \binom{11}{7} }{ \binom{15}{10}} = \frac{(4 \times 330)}{3003} = \frac{1320}{3003} = 0.4396[/tex]
Therefore, the probability of X = 3 in the hypergeometric function is 0.4396 (rounded to 4 decimal places).
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