sully800 wrote:A woman has 2 children. One of them is a boy.
Clear as day, if one is a boy, then one is a girl.
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sully800 wrote:A woman has 2 children. One of them is a boy.
mightyal wrote:I agree that the wording is important.sully800 wrote:A woman has 2 children. One of them is a boy.
Clear as day, if one is a boy, then one is a girl.
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Nappy Bone Apart wrote:This is a totally different situation. The only way your logic would work in your original question is if both children were born at the same time.
wikipedia article wrote:Second question
* A two-child family has a boy. What is the probability that it has a girl? Or that the other is a girl?
When we know that one child is a boy; there cannot be two girls, so {GG} is to be eliminated and the sample space shrinks to:
{BB, BG, GB}.
Since there are two combinations out of three that include girls, the probability that the family has a girl is 2/3.
Pacifist wrote:We know that one of the children is a boy, and despite the fact that this leaves three options: BB, BG and GG, the probability is not 33.3%. We know that one child is a boy, so we have B?. This can either be BB or BG, thus the odds are 50:50, so we get 50%.
For those of you who have decided to say that we have three options, I also have another explanation:
There are four options (each time we know the bold child):
BB, BG, BB and GB!!!
The genetics actually show that you are more likely to have boys than girls, and you are more likely to have two children of the same gender than one of each.
mightyal wrote:I learned this as the gameshow question.
On a gameshow, you are shown three boxes and asked to choose one. Two are empty; the other contains the grand prize. After makiing your choice, the host opens one of the other 2 boxes and shows you that it is empty. He offers you the option of sticking with your original choice or switching. Well?
Nappy Bone Apart wrote:If you're relying on wikipedia to prove your theory, remember that wikipedia entries can, and are, changed by random people who think they know what they're talking about. So wikipedia proves zilch.
vtmarik wrote:Nappy Bone Apart wrote:If you're relying on wikipedia to prove your theory, remember that wikipedia entries can, and are, changed by random people who think they know what they're talking about. So wikipedia proves zilch.
Wikipedia has a very critical core group that maintains the site and stops unverfied or incorrect information from burrowing too deeply. Whenever a page gets vandalized or attacked and altered radically, the page is reset to an earlier version and locked.
Either check your facts, or stop spouting useless rhetoric.
owheelj wrote:In fact we also have to discount either b,g or g,b. We are specifically told that one child is a boy and asked what the gender of the other is. If we know that one is a boy then we know that either the first child or the second child is a boy. If the first child is a boy - we have the options of b,b or b,g. g,b or g,g aren't possible because we know that the first child is a boy. Hence there is a 50% chance that the other child is a boy. If instead the second child is a boy then our options are b,b or g,b. b,g and g,g are not options since we know that the second child is a boy. Again 50% chance. Either way it is impossible for both b,g and g,b to be options.
Nappy Bone Apart wrote:And if you're going to do logic problems, NOTHING can be implied. Logic depends on every fact you give, and you can't base anything on what you don't give. Thus the confusion here. As you said, you're given no reference for time, so every answer given in this thread can be correct. So what does that prove?
sully800 wrote:owheelj wrote:In fact we also have to discount either b,g or g,b. We are specifically told that one child is a boy and asked what the gender of the other is. If we know that one is a boy then we know that either the first child or the second child is a boy. If the first child is a boy - we have the options of b,b or b,g. g,b or g,g aren't possible because we know that the first child is a boy. Hence there is a 50% chance that the other child is a boy. If instead the second child is a boy then our options are b,b or g,b. b,g and g,g are not options since we know that the second child is a boy. Again 50% chance. Either way it is impossible for both b,g and g,b to be options.
So you're making 2 options with 2 options each? And you don't think that affects your results?
maniacmath17 wrote:Sully is right, its 33% that the woman has two boys. If you can't figure out why, imagine flipping 2 coins 100 times and make a list of the results.
Statisticaly you should get 25 times where they came up heads heads, 25 tails tails, and 50 one of each.
Now you are told to only keep the results with atleast one heads. That means you take the 25 out that are tails tails. From this information, you are asked how many in this list have two heads. The answer is 25 out of 75, which is 33%
maniacmath17 wrote:I think the question should read: Given that a woman has two children and atleast one is a boy, what are the chances that both are boys?
OwlLawyer wrote:This is the classic gamblers fallacy.
If you are playing roulette and the wheel is spun 100 times, and someone says, "What are the chances that 100 spins in a row will be red?" Well, the answer is ASTRONOMICAL. BUT... if the wheel has already been spun 99 times, and it has been read every time (assuming that this is random chance and the wheel is not tilted or broken or something), then what is the chance that the next spin will be red?
Well, it's approximately 50% (remember 0 and 00 are not red). It's not astronomical, because you are asking about one event.
If, before either child was born, you asked, what are the chances that a woman has two boys, then you would be right, but when asking about ONE event, it's still 50%.
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