(New page: This question says that 100 people enter a contest and that different winners are selected at random for first, second and third prizes. With 3 person winning a prize each. I am wondering...)
 
 
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Wooi-Chen Ng
 
Wooi-Chen Ng
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What I am thinking is, there are 6 combinations of 3 people each winning a prize. The first person has 1/100 chance, 2nd prize has 1/99 chance, third prize has 1/98 chance. Multiply them. 6*(3/100)*(2/99)*(1/98). I am not sure if this is right. Correct me if I am wrong.
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Wooi-Chen Ng
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The problem is you are multiplying by 6 twice. There aren't 6 combinations of A winning first, B winning second, C winning third... only 1. There are 6 ways of A, B, C winning first, second, third in some order, and that's why you multiply by 6.
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Think of it this way. You want to choose the 3 people ahead of time to win the 3 prizes, out of 100.
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However, out of 100 choose 3 ways of doing this, only one is what you want (the group with all three in it)
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--[[User:Norlow|Norlow]] 00:33, 2 October 2008 (UTC)

Latest revision as of 19:33, 1 October 2008

This question says that 100 people enter a contest and that different winners are selected at random for first, second and third prizes.

With 3 person winning a prize each. I am wondering if this if inclusion exclusion problem. Clearly, each person has a 1/100 chance of winning. So would this be using the formula of union of p(e1), p(e2) , p(e3)? I am quite confused to how to approach this problem.

Wooi-Chen Ng

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What I am thinking is, there are 6 combinations of 3 people each winning a prize. The first person has 1/100 chance, 2nd prize has 1/99 chance, third prize has 1/98 chance. Multiply them. 6*(3/100)*(2/99)*(1/98). I am not sure if this is right. Correct me if I am wrong.

Wooi-Chen Ng

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The problem is you are multiplying by 6 twice. There aren't 6 combinations of A winning first, B winning second, C winning third... only 1. There are 6 ways of A, B, C winning first, second, third in some order, and that's why you multiply by 6.

Think of it this way. You want to choose the 3 people ahead of time to win the 3 prizes, out of 100.

However, out of 100 choose 3 ways of doing this, only one is what you want (the group with all three in it)

--Norlow 00:33, 2 October 2008 (UTC)

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