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?
There we go. This I can get behind.[/quote]
Um, that's still 50%.
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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: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?
There we go. This I can get behind.
Nappy Bone Apart wrote:
Is it? I didn't really think about it much. You're right. The question should read: A woman has twins. One of them is a boy. What is the probability the other is a boy?
As I argued earlier, that makes the conception of both one event, and your probability box will work here. Otherwise, it's still 2 seperate events.
Nappy Bone Apart wrote:I'm not. Using wikipedia as your only source to prove a theory leaves much to be desired. That "core" can't check every page once a year, much less a week or whatever. wikipedia is a great resource, but I wouldn't accept it as law.
OwlLawyer wrote:So it's democratically elected fact
Nappy Bone Apart wrote:
Same fallacy we've been discussing all thread.
sully800 wrote:Nappy Bone Apart wrote:
Same fallacy we've been discussing all thread.
EXPLAIN THE FALLACY
You have said multiple times that its faulty logic but have never provided any evidence as to WHY its faulty logic. Disprove Maniac's coin flip example, because thats the exact same problem I'm talking about.
Nappy Bone Apart wrote:sully. Stop taking this personally. I've explained it 5 different times. Go back, read. You're right, the coin flip example is the same problem. Exactly the same. And you're looking at it in exactly the wrong way. You're wanting to look at 2 seperate, unique coinflips as 1 probability question. THAT CANNOT BE DONE. OwlLawyer has also explained the fallacy. In your question, you're trying to combine the probability of the sex of 2 seperate, unique children. If they were twins, you could oversimplify this question to fit your theory. But since you offer no reference of time, actually I believe the correct answer to this question would be "Not enough information". As I've posted earlier, you can twist logic to fit any answer from 0% to 100% to your question. Fix the question, and then someone can give a definitive answer.
sully800 wrote:The whole point of the puzzle though, once again, is that there is no reference to time. That doesn't make the problem unsolvable or incomplete- It means that you have to treat the data as one event essentially because you don't know what happened first. I don't know how else to explain it, and why you don't agree because you seemed to understand where I was coming from in your 3rd and 4th posts. However I sincerely believe the chance is not 50% and that if you look at maniac's wording of the coin flip problem (to eliminate any of the confusion people had with mine) it proves that 33% is the correct answer.
you count one instance twice. When there are 2 boys, you count it as both boy 1st and boy 2nd.zarvinny wrote:I believe that this whole 33% balderdash is all wrong.
Lets stop looking at this in BB GG BG terms and look at it a more normal way.
The question says the family has one boy and one x (boy or girl)
First, if the boy was first born, then the second born child will be a girl (50%) or a boy (50%).
If the boy was second born, then his older sibling is either a girl (50%) or a boy (50%).
Therefore, the answer is 50%.
If you look at all the 2 child families on earth with at least 1 boy, 1/2 of them will have a girl, and 1/2 of them will not.
Unless I misunderstood the question, here it is, plain as dirt.
zarvinny wrote:If you look at all the 2 child families on earth with at least 1 boy, 1/2 of them will have a girl, and 1/2 of them will not.
Unless I misunderstood the question, here it is, plain as dirt.
mightyal wrote:you count one instance twice. When there are 2 boys, you count it as both boy 1st and boy 2nd.zarvinny wrote:I believe that this whole 33% balderdash is all wrong.
Lets stop looking at this in BB GG BG terms and look at it a more normal way.
The question says the family has one boy and one x (boy or girl)
First, if the boy was first born, then the second born child will be a girl (50%) or a boy (50%).
If the boy was second born, then his older sibling is either a girl (50%) or a boy (50%).
Therefore, the answer is 50%.
If you look at all the 2 child families on earth with at least 1 boy, 1/2 of them will have a girl, and 1/2 of them will not.
Unless I misunderstood the question, here it is, plain as dirt.
You can test this with a coin. Toss it twice, ignore hh (GG)and record how often you get tt (BB).If you are being serious with this twins idea, toss two coins simultaneously. I am confident that will give the same result after enough tries.
sully800 wrote:You can't take two 50% chances, give a 50% chance of each happening...and then say the answer is 50%. That would be 25%.
Nappy Bone Apart wrote:sully800 wrote:You can't take two 50% chances, give a 50% chance of each happening...and then say the answer is 50%. That would be 25%.
lol I can't help myself. You're not taking two 50% chances. You're taking one 100% chance and one 50%. By stipulating one has to be a boy, you take one 50% chance out of the equation, leaving the other. Thus, 50%.
Simple as dirt.
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