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I am convinced about this, directly from the definition, but I found it strange that I could not find a reference. Every field of characteristic zero contains $\mathbb{Q}$ and hence given and natural number $n$ and any element field element, say $g$, we can write $f=g*\frac{1}{n}$ and then, $nf=g$. Am I doing something wrong here?

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    nope. your right on.2011-07-03
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    @jspecter: Thanks, the confirmation helps a lot.2011-07-03
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    I must admit it's kind of weird that with the proof in hand you don't understand that you got it, but yes, you got it. In a field of characteristic $0$, it is usually understood that $n$ (the "number" we wish to have in those fields) is defined recursively by $1 + (n-1)$ so that we have a copy of $\mathbb Q$ that comes from it as you stated. $n$ has an inverse, and writing $g = n (n^{-1})g = n f$ with $f$ defined as above , you have the exact definition of the divisibility of the group. Have you written $0$ characteristic because of an exercise or because you noticed what happens then? =)2011-07-03
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    Wrong "your." Ahhhhh. (I would say the "F-word" but this is a family site.)2011-07-03
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    @Patrick Da Silva: I am not a mathematics major and I needed the result for a specific field of characteristic zero, but then noticed it should work for any field of characteristic zero. As I said, I was convinced of the proof (elementary as it is), but my advisor wanted a reference and I could not find anything.2011-07-03
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    Dear Brittany, it is quite praiseworthy to have generalized your result from a specific example to a field of characteristic zero. Asking for confirmation here is a sign of modesty and a quite healthy initiative, definitely not "weird". +1 and welcome to math.stackexchange.2011-07-03
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    What Georges said!2011-07-03
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    Oh, actually I thought it was weird because I was more on the "exercise" point of view. If you generalized this from an example then I understand the possible lack of confidence. Not weird at all. Even though people might say "yes, this is true" or "yeah I know what you mean", they might not find that or think of noticing that themselves, which is why sites like mathstackexchange exist, so that our eyes can see. +1!2011-07-03
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    @Georges, @Alex and @Patrick: Thanks for the vote of confidence.2011-07-04

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