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I found this math "problem" on the internet, and I'm wondering if it has an answer:

Question: If you choose an answer to this question at random, what is the probability that you will be correct?

a. $25\%$

b. $50\%$

c. $0\%$

d. $25\%$

Does this question have a correct answer?

  • 0
    No meaningful question is stated here, this is a misuse of language. The "question" is invalid.2017-03-18

6 Answers 6

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No, it is not meaningful. 25% is correct iff 50% is correct, and 50% is correct iff 25% is correct, so it can be neither of those two (because if both are correct, the only correct answer could be 75% which is not even an option). But it cannot be 0% either, because then the correct answer would be 25%. So none of the answers are correct, so the answer must be 0%. But then it is 25%. And so forth.

It's a multiple-choice variant (with bells and whistles) of the classical liar paradox, which asks whether the statement

This statement is false.

is true or false. There are various more or less contrived "philosophical" attempts to resolve it, but by far the most common resolution is to deny that the statement means anything in the first place; therefore it is also meaningless to ask for its truth value.


Edited much later to add: There's a variant of this puzzle that's very popular on the internet at the moment, in which answer option (c) is 60% rather than 0%. In this variant it is at least internally consistent to claim that all of the answers are wrong, and so the possibility of getting a right one by choosing randomly is 0%.

Whether this actually resolves the variant puzzle is more a matter of taste and temperament than an objective mathematical question. It is not in general true for self-referencing questions that simply being internally consistent is enough for an answer to be unambiguously right; otherwise the question

Is the correct answer to this question "yes"?

would have two different "right" answers, because "yes" and "no" are both internally consistent. In the 60% variant of the puzzle it is happens that the only internally consistent answer is "0%", but even so one might, as a matter of caution, still deny that such reasoning by elimination is valid for self-referential statements at all. If one adopts this stance, one would still consider the 60% variant meaningless.

One rationale for taking this strict position would be that we don't want to accept reasoning by elimination on

True or false?

  • The Great Pumpkin exists.
  • Both of these statements are false.

where the only internally consistent resolution is that the first statement is true and the second one is false. However, it appears to be unsound to conclude that the Great Pumpkin exists on the basis simply that the puzzle was posed.

On the other hand, it is difficult to argue that there is no possible principle that will cordon off the Great Pumpkin example as meaningless while still allowing the 60% variant to be meaningful.

In the end, though, these things are more matters of taste and philosophy than they are mathematics. In mathematics we generally prefer to play it safe and completely refuse to work with explicitly self-referential statements. This avoids the risk of paradox, and does not seem to hinder mathematical arguments about the things mathematicians are ordinarily interested in. So whatever one decides to do with the question-about-itself, what one does is not really mathematics.

  • 0
    Here we realize that simply the truth value is uninteresting. What would be interesting is if you had someone evaluate the test and give out a prize. Then question would be "What's the probability of winning the prize if you choose randomly?" The solution to this modified problem is that the correct answer is 0% but you get no prize even when you guess it correctly, because any consistently operating person would have to refuse being the judge. The paradox only arises if we assume that there is a universal jugde of all claims, a transcendent Truth Evaluator...2015-04-05
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The question is underspecified since it doesn't say which distribution is used in choosing an answer at random. Any of the answers could be correct:

If I choose a. with probability 25% and b. with probability 75%, a and d are correct.

If I choose a. with probability 50% and b. with probability 50%, b is correct.

If I choose a. with probability 75% and b. with probability 25%, c is correct.

From the design of the question, it seems that whoever wrote it had in mind a uniform distribution over all four answers, but forgot to specify that. In that case Henning's answer applies.

  • 0
    it is the connotation of the phrase which is in most times synonymous to "*unbiased coin*" (or dice or whatever, aka uniform distr). Of course there is randomness in other distributions just lets say *less* ("*biased distribution*" as a phrase carries less randomness, but that is just the linguistics attached)2016-01-06
44

To offer up another perspective on Henning's answer, the question is essentially an elaboration of this (similar) multiple-choice question:

What is the correct answer to this question?

  1. Answer (2)
  2. Answer (3)
  3. Answer (4)
  4. Answer (1)

Note that there are some fine puzzles built around variants of the 'self-referential test'; for instance, this simple example:

Each of the following statements is either true or false. Which of them are true and which are false?

  1. All of these sentences are false.
  2. Exactly 1 of these sentences is true.
  3. Exactly 2 of these sentences are true.
  4. Exactly 3 of these sentences are true.
  5. Exactly 4 of these sentences are true.
  • 8
    @fluffy: that's exactly right (though it's often phrased in inverse - 'exactly 4 of these sentences are false', 'exactly 2 of these sentences are false', etc. - which makes it a little trickier). I _said_ it was a simple example. :-)2011-10-28
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If there is one right answer to the question, then you will answer this question statistically 25 percent of the time. If 25 percent is the "right" answer, then you actually have two options.

If you have 2 options, then 50 percent is the statistical answer. And if since 50 percent is the only option place to mark down, that means that you will only get this answer right 25 percent of the time because you have a 1 in four chance.

It is impossible without a miracle. Plus, if it is impossible then does that leave the option of 0 open because then there are no right answers? That is saying: "If there are no right answers, this is the right answer." What are you really saying there? Nothing.

I think maybe you can't find out how many answers there are in the first place. There can't be only one. There can't be only two. There can't be three. There can't be four, and therefore one is the right answer? No. Because then you start back at the beginning.

  • 1
    I haven't downvoted, but I believe it could be just because it doesn't add anything new to the previous answers.2014-01-16
12

Well, I must be pretty insane if I start competing with these already heavily upvoted answers from high rep users. But although the following solution may sound a little creative or even frivolous, it could easily be the right one. You could say that this solution is reverse engineered, as follows:

The question instructs to only choose one single answer out of four. And assume a uniform distribution, since that is most likely intended, then each answer has a chance of 25% to become chosen.

So the correct answer should be: 25%.

This computes to answer A being correct, as well as answer D. Could that be? Yes, it can. The question does not reveal how many of the four given answers are correct, but since there is one to be picked, assume that at least one of the four answers is correct.

Let's call answer A + answer D the correct answer pair.

Now, there are two possible choices (A or D) that result in 50% of the correct answer (A and D). Secondly, there is 50% chance of picking one (A or D) of two (A and D) out of four (A to D). So whether answer A or answer D is chosen, in either case the probability of being correct (50% × 50%) is 25%, which evaluates true.

Thus, yes, the question has 2 correct answers.

And now I realize that this post is the long version of the by joriki ages ago given comment. ;)


Ok, to be clear about what I mean, I believe the question is a special variant of the following trick question:

What is the color of the car?

  1. Black
  2. Blue
  3. Gray
  4. Metallic

As owner of the car I know the correct answer is metallic black. But this would render the question unfair, because it is never possible to give this answer by only selecting one. The difference with the question in question is the equality of both answers to give, which makes it slightly more fair. But since you can select only half of the full solution, the probability is still 25%.

  • 1
    So, fuzzy logic the$n$?2012-01-23
6

See problem 2 here for a similar problem that can be solved.

SPOILER: Solution here. Don't look if you want to solve it yourself.


a) can't be the answer because it says b) is correct, but the statement of b) directly contradicts the statement of a)

c) can't be correct, because it means a) and b) are correct but they contradict each other

d) can't be correct. If it were, it would imply a) or b) or c) to be correct. The only possibility left is b), since I have already ruled out a) and c). But, b) contradicts d).

b) can’t be correct for the same reason, basically. If it were true, since a) and c) can’t be true, this would imply d) is correct. But b) contradicts d).

f) can't be correct. If it were, it would imply that e) is also correct, which would contradict the statement of f).

This leaves only e) and none of the statements contradict e) so e) must be the correct answer.

  • 1
    Link is dead...2017-09-26