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Locally cyclic group

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In mathematics, a locally cyclic group is a group (G, *) in which every finitely generated subgroup is cyclic.

Some facts

Examples of locally cyclic groups that are not cyclic

  • The additive group of rational numbers (Q, +) is locally cyclic – any pair of rational numbers a/b and c/d is contained in the cyclic subgroup generated by 1/(bd).
  • The additive group of the dyadic rational numbers, the rational numbers of the form a/2, is also locally cyclic – any pair of dyadic rational numbers a/2 and c/2 is contained in the cyclic subgroup generated by 1/2.
  • Let p be any prime, and let μp denote the set of all pth-power roots of unity in C, i.e.
    μ p = { exp ( 2 π i m p k ) : m , k Z } {\displaystyle \mu _{p^{\infty }}=\left\{\exp \left({\frac {2\pi im}{p^{k}}}\right):m,k\in \mathbb {Z} \right\}}
    Then μp is locally cyclic but not cyclic. This is the Prüfer p-group. The Prüfer 2-group is closely related to the dyadic rationals (it can be viewed as the dyadic rationals modulo 1).

Examples of abelian groups that are not locally cyclic

  • The additive group of real numbers (R, +); the subgroup generated by 1 and π (comprising all numbers of the form a + bπ) is isomorphic to the direct sum Z + Z, which is not cyclic.

References

  1. Rose (2012), p. 54.
  2. Rose (2012), p. 52.
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