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Identity element

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Title: Identity element  
Author: World Heritage Encyclopedia
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Subject: Semigroup, Linear subspace, Algebra, Magma (algebra), 1 (number)
Collection: 1 (Number), Abstract Algebra, Algebra, Binary Operations
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Identity element

In mathematics, an identity element or neutral element is a special type of element of a set with respect to a binary operation on that set. It leaves other elements unchanged when combined with them. This is used for groups and related concepts.

The term identity element is often shortened to identity (as will be done in this article) when there is no possibility of confusion.

Let (S, ∗) be a set  with a binary operation ∗ on it. Then an element  of S is called a left and right (algebra) identity if ea = a for all a in S, and a left and right (algebra) identity if ae = a for all a in S. If e is both a left identity and a right identity, then it is called a two-sided identity, or simply an identity.

An identity with respect to addition is called an additive identity (often denoted as 0) and an identity with respect to multiplication is called a multiplicative identity (often denoted as 1). The distinction is used most often for sets that support both binary operations, such as rings. The multiplicative identity is often called the unit in the latter context, where, though, a unit is often used in a broader sense, to mean an element with a multiplicative inverse.


Set Operation Identity
Real numbers + (addition) 0
Real numbers · (multiplication) 1
Non-negative numbers ab (exponentiation) 1 (right identity only)
Integers (to extended rationals)
Positive integers Least common multiple 1
Non-negative integers Greatest common divisor 0 (under most definitions of GCD)
m-by-n Matrices + (addition) Zero matrix
n-by-n square matrices Matrix multiplication In (identity matrix)
m-by-n matrices ∘ (Hadamard product) Jm, n (Matrix of ones)
All functions from a set, M, to itself ∘ (function composition) Identity function
All distributions on a groupG ∗ (convolution) δ (Dirac delta)
Extended real numbers Minimum/infimum +∞
Extended real numbers Maximum/supremum −∞
Subsets of a set M ∩ (intersection) M
Sets ∪ (union) ∅ (empty set)
Strings, lists Concatenation Empty string, empty list
A boolean algebra ∧ (logical and) ⊤ (truth)
A boolean algebra ∨ (logical or) ⊥ (falsity)
A boolean algebra ⊕ (exclusive or) ⊥ (falsity)
Knots Knot sum Unknot
Compact surfaces # (connected sum) S2
Two elements, {e, f}  ∗ defined by
ee = fe = e and
ff = ef = f
Both e and f are left identities,
but there is no right identity
and no two-sided identity


As the last example (a semigroup) shows, it is possible for (S, ∗) to have several left identities. In fact, every element can be a left identity. Similarly, there can be several right identities. But if there is both a right identity and a left identity, then they are equal and there is just a single two-sided identity. To see this, note that if l is a left identity and r is a right identity then l = lr = r. In particular, there can never be more than one two-sided identity. If there were two, e and f, then ef would have to be equal to both e and f.

It is also quite possible for (S, ∗) to have no identity element. A common example of this is the cross product of vectors. The absence of an identity element is related to the fact that the direction of any nonzero cross product is always orthogonal to any element multiplied – so that it is not possible to obtain a non-zero vector in the same direction as the original. Another example would be the additive semigroup of positive natural numbers.

See also


  • M. Kilp, U. Knauer, A.V. Mikhalev, Monoids, Acts and Categories with Applications to Wreath Products and Graphs, De Gruyter Expositions in Mathematics vol. 29, Walter de Gruyter, 2000, ISBN 3-11-015248-7, p. 14–15

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