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I was doing this question:

Repetitions not allowed: Using the following six digits: 2, 3, 5, 6, 7, 9 What is the probability that a three-digit number greater than 400 will be formed from these six digits?

I understand to get the numerator you have to do the following:

P(6,3) 3-digit numbers $6!/(6-3)!= 6\times 5\times 4 = 120$

And to get the denominator you have to do this

number of ways form a number greater than 400

But after that I’m completely lost, I understand there a 4 choices but that’s it. Could someone help me on the methodology of using these four choices?

Thanks in advance!

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    For numbers greater than $400$, there are four possibilities for the first digit, five left for the second digit, and four left for the third digit. Total number, $4\times 5\times 4$.2012-04-16
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    You have numerator and denominator backwards. You will get a probability greater than 1 this way.2012-04-16
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    @ArturoMagidin thanks but how did you see that there four, five and four possibilities?2012-04-16
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    @RossMillikan my mistake but i meant the other way round2012-04-16
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    @Fatz: There are four possibilities for the first digit to ensure you get more than 400: first digit must be either 5, 6, 7, or 9. Once you use up that number, it doesn't matter what the other digits are, you will get a number greater than 400. So there are 5 possibilities for the second digit (any of the original six except for the one used in the first digit), and four for the third digit (any of the original six, except for the two that we used in the first and second digit).2012-04-16
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    @ArturoMagidin thanks :)2012-04-16

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I'm assuming each digit chosen from $\{ 2,3,5,6,7,9\}$ must be distinct. For the first digit, you must choose a number $\ge$ 4, so you have four choices. After that, any number will do, as it only needs to be $\ge 0$. So you have $6-1=5$ choices, and similarly for the last digit you have $5-1=4$ choices, for a total of $4 \times 5 \times 4=80$ choices. The total number of choices is $6 \times 5 \times 4 = \frac{6!}{3!}=120$. Therefore the probability of choosing a number greater than 400 is $\frac{80}{120}=\frac{2}{3}$.

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    No problem, please accept if this is what you were looking for.2012-04-16
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    sure, done!! :)2012-04-20
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The simple solution is to note that only the first digit matters. If it is 5,6,7, or 9, the resulting number will be greater than 400. So 4/6=2/3