There is a well-known theorem that:
If $S\le G$ and $\frac{G}{S}$ is torsion-free, so $S$ is pure in $G$.
Please hint me about the reverse. If $S$ is pure in $G$, then will $\frac{G}{S}$ is necessarily torsion-free group? Thanks.
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Mikasa
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This link could be useful: http://en.wikipedia.org/wiki/Pure_subgroup – Giovanni De Gaetano Oct 15 '12 at 09:51
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Am I right if I say that your question is equivalent to ask for a pure subgroup $S$ which does not contain the whole torsion of the original group $G$? If this is the case a negative answer could be deduced from this answer: http://math.stackexchange.com/questions/18719/example-of-intersection-of-pure-subgroup-which-is-not-pure . Please let me know if I'm just saying a pack of rubbish or not! – Giovanni De Gaetano Oct 15 '12 at 10:00
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Pure subgroups are limits of direct summands. In particular every direct summand is pure. Take $G$ of order 2, and $S$ of order 1 for a minimal counter example.
Jack Schmidt
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1For $\mathbb{Q}/\mathbb{Z}$ the only pure subgroups are the direct summands, such as $\mathbb{Z}[\tfrac12]/\mathbb{Z}$, but they all have torsion quotients. – Jack Schmidt Oct 15 '12 at 16:04