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An interview question about probability.

You enter a stadium with 1000 seats. you are told that under one of the chairs is a prize. You choose a seat randomly.

q1, what's the probability your seat has a prize

q2, now 990 seats are removed, not including your seat or the one with the prize under it. There are 10 seats left. What's the probability that your seat contains the prize now?

My answer to q1: 1/1000 to q2: 1/10. right ?

Thanks a lot!

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closed as off topic by Jerry Coffin, akappa, Juhana, Kendall Hopkins, Graviton Feb 22 '12 at 3:33

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Is it just me or this has nothing to do with programming (no offense!) –  rgargente Feb 21 '12 at 8:23
"now 990 seats are removed, not including your seat or the one with the prize under it" is a little ambiguous. I guess it implies you're not sitting on the prize. –  robert king Feb 21 '12 at 8:41
@rgargente math.stackexchange.com may ve been a better match for this question, but I find it appropriate for software engineers and programmers too. –  Irfy Feb 21 '12 at 22:07
This is a slight variation on the Monty Hall problem. The only difference is that the numbers 3 and 2 are replaced by the numbers 1000 and 10, respectively. (And there is no goat.) –  Jean-François Corbett Feb 22 '12 at 8:01

6 Answers 6

This is an extension of the Monty Hall problem.

Basically, your intuition is wrong. Consider that 999 times out of 1000, your first pick won't be the prize. Therefore 999 times out of 1000, the prize will be in under one of the other 9 seats.

Incidentally, this kind of interview question is stupid.

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But in that, you can repick. In this case, the choice is already made. –  Luchian Grigore Feb 19 '12 at 17:17
In the Monthy Hall problem: You should always chose to "switch" because the probability of the other curtain is 2/3, while yours is 1/3. This is the same problem, if you are asked if you want to switch chair, you will answer "yes" because the probability in your chair is 1/1000 while in each of the other chairs it is 1/111. If you are not asked to switch chairs: Still, the probability of your chair is 1/1000, the possibility of switching did not change anything. –  amit Feb 19 '12 at 17:36
Read the section on host behaviors in your own link. Since the seat removal algorithm has not been specified in this case, the answer is actually indeterminate. Though you are correct to draw the analogy to the Monty Hall problem. And you are also correct that this is a terrible interview problem, since it really just tests whether you've seen a particular math argument before. –  btilly Feb 20 '12 at 20:47
@btilly: The OP says "990 seats are removed, not including your seat or the one with the prize under it"... –  Oliver Charlesworth Feb 20 '12 at 23:02
@OliCharlesworth the fact that 990 seats happened to be removed when you ran the experiment does not mean that on another run of the same experiment, the prize couldn't have turned up later. The probabilities depend on the hypothetical possibilities as well as the actual observation. Without knowing the hypothetical possibilities, you can't calculate the probabilities. –  btilly Feb 21 '12 at 5:20

They're both 1/1000. It doesn't matter how many seats are removed, since you made the choice when there were 1000 seats to choose from.

If your logic was right, removing 998 of the seats, leaving only the one you originally chose and another one, probably containing the prize would mean that either of the seats has an equal chance of containing the prize. Which is wrong. That would be a 1/2 chance of you randomly choosing the correct seat originally, out of 1000.

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Not so fast. See my answer for more. –  btilly Feb 20 '12 at 20:44
@btilly "now 990 seats are removed, not including your seat or the one with the prize under it." Whoever is removing the seats knows where the prize is. It's specified in the question. Please revisit your answer with this new piece of information. –  Luchian Grigore Feb 20 '12 at 20:58
Please read my replies to others, and revisit my answer again. What matters is not just what was seen to happen, but what could have happened. The part of the problem that was not properly specified is what could have happened. –  btilly Feb 21 '12 at 5:24

The probability remains the same for your seat. The probability for the other 9 seats to have the prize is also the same as for the other 999 before removing: 999/1000. This is under the assumption that the remover explicitly didn't remove the seat with the prize, as you said.

Now the 999/1000 probability for the other 9 seats means 111/1000, or 11.1% chance per seat, whilst your seat still has a 1/1000, or 0.1% chance.

If asked whether to switch a seat, switch the seat!

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You have made large and unjustified assumptions about how seats were removed. See my answer for more. –  btilly Feb 20 '12 at 20:41


The problem, as given, is underspecified. Your probability of being correct can be anything from 0.1% to 100% depending on facts not in evidence.

The key is what algorithm is used to remove seats.

  1. If the other seats were eliminated totally at random, then the odds of getting to your current state are 1%. The remaining seats, including yours, are equally likely to have the prize so your probability of having the correct seat is now 10%. (This is most people's incorrect intuition for the Monty Hall problem.)

  2. If the other seats were eliminated by someone who knew where the prize was, who is trying to prolong the game, then the odds of getting to your current state are 100%. Your initial probability of having the correct seat was 0.1%, and that is unchanged. (This is the implicit assumption in the Monty Hall problem.)

  3. If the other seats were eliminated by someone who knew where the prize was, who is trying to find the prize fast without picking your seat, then you will only get to the current state if you sat down on the prize in the first place. In this case the odds of getting to your current state are 0.1%, and your odds of having the prize now that you are here is 100%. (This is the other extreme possibility that nobody ever thinks about.)

  4. The actual method of choosing was chosen by a process unknown to you with some probability of being any of the above. The answer is going to be somewhere between, and depending on the initial probability for different strategies, any answer at all between 0.1% to 100% is possible. (I've only included this to demonstrate that there are an infinite number of possible answers that could be right.)

Now to go and correct everyone who jumped to the conclusion that the answer was necessarily #2.

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"q2, now 990 seats are removed, not including your seat or the one with the prize under it". This is a given condition, it is not an assumption everyone is jumping towards. Given that the OP doesn't know whether he is sitting on the prize or not + this assumption, means #2 is the only viable solution. #1 is simply ignoring what the OP stated. #3 is similar to #1: ignoring the given condition, that non-prize seats are removed, intentionally. #4 is obsolete, since only #2 is viable. –  Irfy Feb 20 '12 at 22:58
Let me put it in another way: your post makes a lot of sense, but for a question differently specified than this one. –  Irfy Feb 20 '12 at 22:59
@Irfy I think I read it more carefully than you did. The question specifies what was observed to happen, not what could have been observed on another run of the same experiment. The hypothetical "what could have been observed" is absolutely critical in working out probabilities. –  btilly Feb 21 '12 at 5:22
+1 but, obviously he isn't sitting on the prize, otherwise they wouldn't say "we don't remover your seat or the one with prize under it" –  robert king Feb 21 '12 at 8:43
@MooingDuck #3 is the case of the malicious game host who does not want you to win. So he will try to trick you out of the prize if you have it by showing lots without it and trying to get you to switch, and if you don't have it he will gleefully reveal it immediately. Therefore the fact he did not reveal it right away means that you have the prize. –  btilly Feb 25 '12 at 4:41


Q1: p = 1/1000, provided you choose the seats with uniform probability.

Q2: p = 1/1000. Removing other seats after you picked one cannot affect the result! You must consider the number of seats you've picked from!

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First 1/1000 is correct. Second one is 1/10 if and only if you look at 990 spots and didn't found the prize if you found prize than probability is zero.

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You've made a different assumption about the seat removal process than others, leading to your different answer. See my answer for more. –  btilly Feb 20 '12 at 20:42

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