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RE: The Monty Hall problem.
January 19, 2013 at 8:20 pm
(January 19, 2013 at 8:02 pm)Joy Squeezy Wrote: They didn't switch, so it's irrelevant. Sneering at my 'mathS' isn't going to get you anywhere. Many mathematicians were also stumped by the problem.
Mathematicians don't get stumped like foresters: they get divided!
Please give me a home where cloud buffalo roam
Where the dear and the strangers can play
Where sometimes is heard a discouraging word
But the skies are not stormy all day
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RE: The Monty Hall problem.
January 19, 2013 at 8:23 pm
(January 19, 2013 at 8:20 pm)Violet Lilly Blossom Wrote: (January 19, 2013 at 8:02 pm)Joy Squeezy Wrote: They didn't switch, so it's irrelevant. Sneering at my 'mathS' isn't going to get you anywhere. Many mathematicians were also stumped by the problem.
Mathematicians don't get stumped like foresters: they get divided!
This place won't let me use smilies so it will have to be a lol.
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RE: The Monty Hall problem.
January 19, 2013 at 8:37 pm
(This post was last modified: January 19, 2013 at 8:38 pm by Golbez.)
(January 19, 2013 at 8:02 pm)Joy Squeezy Wrote: They didn't switch, so it's irrelevant. Sneering at my 'mathS' isn't going to get you anywhere. Many mathematicians were also stumped by the problem.
Think of a coin toss. Whether the person tossing the coin understands probability, they will, given enough trials, get about 50% heads and 50% tails.
Given a clueless audience, they will either choose the same door and win 33% of the time, or switch and get 66% of the time. It plays out whether the audience/guests understand or not. A stumped mathematician does not change the probability, nor the outcome. The outcomes, given enough samples, will always play out. Even if they all choose the same door. It still confirms the odds.
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RE: The Monty Hall problem.
January 19, 2013 at 9:56 pm
(January 19, 2013 at 7:28 pm)Joy Squeezy Wrote: Did you read what I wrote? In the ACTUAL game no one switched. The apparent paradox has been scientifically tested, but the doors were switched and yes, the switchers did win a disproportionate number of times. What I am saying is that this would never happen in a REAL game where the contestants were completely unaware of the Monty Hall problem. Do you not see something else going on here? Can anyone cite a similar situation where the seeming anomaly could be proven in its 'natural' form? It is completely irrelevant if players are aware of the Monty Hall problem or not. Even if all contestants refuse to switch, they would on average win 1/3 of the time. Since a switch negates the outcome (i.e. switching from a winning door will always result in a lose, and vice-versa), it is a simple calculation to show that if people switched, they would have won 2/3 of the time.
In other words, if all the people switched rather than stayed with their original choice, the 1/3 who originally won would have lost, and the 2/3 who would have originally lost would have won.
(January 19, 2013 at 7:45 pm)Joy Squeezy Wrote: But it doesn't tell you if they would have won 66% of the time if they had switched, because almost no one switched. It actually does tell you that, because switching negates the outcome absolutely.
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RE: The Monty Hall problem.
January 21, 2013 at 8:05 am
Thanks, Tib, now my brain is on fire.
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RE: The Monty Hall problem.
January 21, 2013 at 8:34 am
Because of the goats and the 66.6, I'm gonna say it's because of Satan.
If you're not supposed to ride faster than your guardian angel can fly then mine had better get a bloody SR-71.
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RE: The Monty Hall problem.
January 21, 2013 at 9:45 am
(This post was last modified: January 21, 2013 at 9:50 am by Anymouse.)
(January 19, 2013 at 8:37 pm)Golbez Wrote: Think of a coin toss. Whether the person tossing the coin understands probability, they will, given enough trials, get about 50% heads and 50% tails.
Given a clueless audience, they will either choose the same door and win 33% of the time, or switch and get 66% of the time. It plays out whether the audience/guests understand or not. A stumped mathematician does not change the probability, nor the outcome. The outcomes, given enough samples, will always play out. Even if they all choose the same door. It still confirms the odds. The full Monty Hall problem includes the following caveat, which is why the odds are better by switching. When the contestant picks a door, Hall then exposes a goat behind one of the doors not picked. (He has thus eliminated one of the bad choices).
If the contestant starts by picking the door with the prize, Hall can expose either door. The choice then becomes keep (win) or switch (lose).
If the contestant starts by picking a door with a goat, Hall can only expose the other goat.
Marilyn vos Savant (editor of Parade magazine) tried to get people to visualise the solution thus: Hall will never expose the car. If the player has chosen a goat, he can only expose the other goat.
Now imagine if there were a million doors, and behind door 777,777 is the car. Hall opens all the doors with goats. Which is the best choice: sit or switch?
Another way to look at it is intuitively: after one makes the initial pick, the odds of winning are 1 in three. The player can only lose he has the car to begin with (since the host will expose a goat after the pick, the odds of picking that door become zero). Thus, the odds of the prize being behind the remaining door are 2 in three.
For a practical demonstration you can conduct the experiment yourself. Have another person take two red playing cards (goats) and one black playing card (car), place face down. That person acts as Hall, and after you pick a card, exposes one of the red cards. Repeat the experiment many times both not switching, and switching, and keep a tally. You will find that switching will yield the black card 2 times of three, keeping your choice will yield the black card 1 time of three.
For a full explanation of the problem, and the furore that arose as mathematicians tried to prove Marilyn vos Savant wrong (who correctly surmised the odds) and savaged her in the press until they grudgingly admitted she was right, see Wikipedia.
https://en.wikipedia.org/wiki/Monty_hall_problem
"Be ye not lost amongst Precept of Order." - Book of Uterus, 1:5, "Principia Discordia, or How I Found Goddess and What I Did to Her When I Found Her."
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RE: The Monty Hall problem.
February 26, 2013 at 11:48 am
I'm not good in math.
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