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(1) Three items are selected at random from a manufacturing process & classified defective or non-defective. A defective item is designated a success. Assume $25\%$ of the production is defective. Let $X$ be the number of successes, let $N$: non-defective, $D$: defective.

When I use the formula $P(X=2)=b(2;3,0.25)=9/64$. But when I use $P(NDD)=(3/4)(1/4)(1/4)=3/64$. What is wrong here?

(2) In a certain rural community "$30\%$ of wells are impure" is merely a conjecture put forth by the area water board.Suppose $10$ wells are randomly selected & $6$ are found to contain the impurity.

By using the formula $P(X=6)=0.0367$, please explain which result you compare with the result $0.0367$ to conclude that the conjecture is unlikely.

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    THANK YOU FOR SAYING "PLEASE"2012-06-07
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    YOUR QUESTION IS VERY HARD TO UNDERSTAND. PLEASE CLARIFY AND PROVIDE CONTEXT TO RECEIVE A PROPER ANSWER.2012-06-07
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    I think it does not look nice that OP gets so many unhelpful comments. I am sure there is a better place to exercise somebody's humor.2012-06-07
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    @Artem You're right; my apologies.2012-06-07
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    @Artem: I was tempered by a popular meta thread about immediately down voting poorly-formatted questions (posed by new users), otherwise I might have downvoted instead of commenting.2012-06-07
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    For (1), you are using the binomial distribution to find the chance of two non defective items with one defective item. On the other hand, $P(NND)=P(N)P(D)P(D)$ calculates the probability that the first two items are not defective and the third is defective ("order matters"). So to get the same answer as the binomial distribution, you need to add the possibility of DND and DDN.2012-06-07
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    @Artem: I see only two, do you call any number more than one "so many"?2012-06-07
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    @Gigili There were actually three. During first couple of minutes after the question was asked.2012-06-07

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