The 3-Door Monty Hall Problem (2024)

The 3-Door Monty Hall Problem

Michael Shermer's extended response to a question about the Let's Make a Deal Skeptic column

I find amazing that serious scientists like Robert Plomin and others quoted in Carl Zimmer’s review article keep looking for genes related to a nonentity such as intelligence. Haven’t we known for some time that the usual notion of intelligence is a pure psychometric fiction (g factor, etc.) ? What the cognitive neurosciences are demonstrating is the existence of a number of “intellectual” or better cognitive functions, largely dissociated as the pathologies show. These functions and the knowledge stored (factual, procedural) are but the product of a very long chain of interactions between some aspects of the genotype and environmental factors from conception on. These processes are associated likely with a large number of “structural” genes (as suggested by the studies on the congenital genetic conditions leading to cognitive disabilities. There is no mystery involved here ‘as Zimmer seems to imply (rather stupidly in my view). Just that people must look at the right place :cerebral structures and interindividual variations at that level (as some researchers have started to do) and certainly not at the mere products. In this sense, the failure of Plomin and others to identify so-called intelligence genes was highly predictable.

Dr. J.A. RONDAL, Ph.D., Dr. Sc. Lang.
Professeur Ordinaire Emérite de l'Université de Liège
Professeur à l'Université Pontificale salésienne de venise

The 3-Door Monty Hall Problem
By Michael Shermer

In nearly 100 months of writing the Skeptic column I have never received so many letters as I did in response to my October essay (“A Random Walk Through Middle Land”) on the so-called Monty Hall Problem: you are on a game show with three doors, behind one of which is a car and behind the other two are goats. You pick door #1. Monty, who knows what’s behind all three doors, reveals that behind door #2 is a goat. Before showing you what you won, Monty asks if you want to switch doors. Most people say that it doesn’t matter because it is now a 50/50 choice. I explained that you should always switch. My correspondents disagreed.

The James Madison University mathematics professor Jason Rosenhouse, who has written an entire book on the subject—The Monty Hall Problem: The Remarkable Story of Math’s Most Contentious Brainteaser (Oxford University Press, 2009)—explained to me that you double your chances of winning by switching doors when three conditions are met: (1) Monty never opens the door you chose initially; (2) Monty always opens a door concealing a goat; (3) When the first two rules leave Monty with a choice of doors to open (which happens in those cases where your initial choice was correct) he makes his choice at random. “Switching turns a loss into a win and a win into a loss,” says Rosenhouse, “and since my first choice is wrong 2/3rds of the time, I will win that often by switching.”

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Here’s why: At the beginning of the game you have a 1/3rd chance of picking the car and a 2/3rds chance of picking a goat. Switching doors is bad only if you initially chose the car, which happens only 1/3rd of the time. Switching doors is good if you initially chose a goat, which happens 2/3rds of the time. Thus, the probability of winning by switching is 2/3rds, or double the odds of not switching (keeping in mind the three rules above). Analogously, if there are 10 doors, initially you have a 1/10th chance of picking the car and a 9/10ths chance of picking a goat. Switching doors is bad only if you initially chose the car, which happens only 1/10th of the time. Switching doors is good if you initially chose a goat, which happens 9/10ths of the time. Thus, the probability of winning by switching is 9/10ths, again, assuming that Monty has shown you 8 other doors with goats.

Still not convinced? Google “Monty Hall Problem simulation” and try the various computer simulations yourself and you will see that you double your actual wins by switching doors. One of my correspondents, who was skeptical at first, ran his own simulation over 10,000 trials, concluding that “switching doors yields a 2/3 success rate while running without switching doors yields a 1/3 success rate.” (Go to for the simulation.)

The 3-Door Monty Hall Problem (2024)
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