Unit (ring theory)
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In mathematics, a unit in a (unital) ring R is an invertible element of R, i.e. an element u such that there is a v in R with
- uv = vu = 1R, where 1R is the multiplicative identity element.
Unfortunately, the term unit is also used to refer to the identity element 1R of the ring, in expressions like ring with a unit or unit ring, and also e.g. unit matrix. (For this reason, some authors call 1R "unity", and say that R is a "ring with unity" rather than "ring with a unit".)
Group of units
The units of R form a group U(R) under multiplication, the group of units of R. The group of units U(R) is sometimes also denoted R* or R×.In a commutative unital ring R, the group of units U(R) acts on R via multiplication. The orbits of this action are called sets of associates; in other words, there is an equivalence relation ~ on R called associatedness such that
- r ~ s
One can check that U is a functor from the category of rings to the category of groups: every ring homomorphism f : R → S induces a group homomorphism U(f) : U(R) → U(S), since f maps units to units. This functor has a left adjoint which is the integral group ring construction.
A ring R is a field if and only if R* = R \ .
Examples
- In the ring of integers, Z, the units are ±1. The associates are pairs n and −n.
- Any root of unity is a unit in any unital ring R. (If r is a root of unity, and rn = 1, then r−1 = rn − 1 is also an element of R by closure under multiplication.) In algebraic number theory, Dirichlet's unit theorem shows the existence of many units in most rings of algebraic integers. For example, we have (√5 + 2)(√5 − 2) = 1.
- In the ring M(n,F) of n×n matrices over some field F the units are exactly the invertible matrices.
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