Marquette University

Department of Mathematics, Statistics and Computer Science

Wim Ruitenburg's Spring 2004 MATH025.1001

The Three Doors Problem

This problem is also referred to as the Monty Hall problem. There is a situation sketch is the book, pages 10-11. The game show host shows us three doors, behind one of which there is a big prize. We are asked to pick one of the three doors. Once the door is opened by the game show host, and the prize is behind the door, we have won. Obviously, our chance of winning is one-third, or 1/3. What happens with our chances when the game show host adapts the rules a bit? Suppose that we have picked a door, say door one. Then the show host observes that, although he will not reveal whether or not we made the winning choice, the prize is not behind door two. Now we are offered the option of sticking with door one, or be permitted to switch our choice to door three. Should we switch, or should we stay? What are our chances for door one, or for door three?

Here is the standard answer. There is a 1/3 chance that the prize is behind door one. There is a 2/3 chance that the prize is behind door two or behind door three. So although the show host has ruled out door two, the prize is still behind doors two or three with chance 2/3. The difference is that we also know that door two covers no prize. So the chance for the prize being behind door three is 2/3. So switch to door three!
Many people have an intuitive resistance to the answer above. This may be because of `hidden' assumptions. For example, we assume that the three doors are not made of glass. For otherwise we can see the prize through the door. We also assume that the show host is telling the truth. This and similar restrictions are usually perceived as obvious from the context. Other assumptions may be less obvious.
- Suppose the show host always makes the observation about there being another door without a prize behind it, for all participants. Then the argument above applies.
- Suppose the show host randomly makes the observation about there being another door without a prize behind it, for all participants. Then the argument above applies.
- Suppose the show host only makes the observation about there being another door without a prize behind it, for participants whose original choice was correct. Then the above argument is obviously false: Never change.
- Suppose the show host makes the observation about there being another door without a prize behind it, for the first time. Then it depends on whether or not the show host is trying to trick us. We may not know.

Last updated: January 2004
Comments & suggestions: wimr@mscs.mu.edu