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I have to find a probability that 2 in 30 electrical component coming off a production line is defective. The probability to get a defective one is 0.04. Assume that whether or not a component is defective is independent of whether or not any other component is defective.

so as parameters i have:

K = {1,2,3,..,30} p = defective = 0.4 q = working = 1 - p = 0.6 n = 30 k = 2  

I'm applying the formula as:

enter image description here

which is giving me a probability of 4.2741e-05.

is that the right?

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    @Sarastro typo. fixed thanks2012-12-02

2 Answers 2

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The number of defects $K$ obeys a binomial distribution with $K\tilde~B(30,p)$, so $P(K=2)=\binom{30}{2}p^2(1-p)^{28}$

Now it is not clear what the value of $p$ is from your question.

If $p=0.04$, $P(K=2)=0.2219$. If $p=0.4$, $P(K=2)=4.274\cdot10^{-5}$.

So you are right if $p=0.4$.

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If $\,p=0.4\,$ then $\,q=1-p=0.6\neq0.5\,$ , so the probability of getting exactly two deffective components out of $\,30\,$ is

$P_{30}(2):=\binom{30}{2}(0.4)^2(0.6)^{28}=4.274095\times 10^{-5}$

Which, surprisingly enough, matches your result, so that you must have mistyped $\,q=0.5\,$ instead of the correct $\,q=0.6\,$

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    yes i did mistyped. thanks2012-12-02