Difference between revisions of "Identity"

Revision as of 11:38, 23 November 2007

There are at least two possible meanings in mathematics for the word identity.

Equations

An identity is "a general relationship which always holds, usually over some choice of variables." For example, $(x+1)^2=x^2+2x+1$ is an identity, since it holds regardless of choice of variable. We therefore sometimes write $(x+1)^2\equiv x^2+2x+1$ .

Abstract Algebra

Given a binary operation G on a set S, $G: S \times S \to S$ , an identity for G is an element $e\in S$ such that for all $a \in S$ , $G(e, a) = G(a, e) = a$ . For example, in the real numbers, if we take G to be the operation of multiplication $G(a, b) = a\cdot b$ , the number 1 will be the identity for G. If instead we took G to be addition ( $G(a, b) = a + b$ ), 0 would be the identity.

Identities in this sense are unique. Imagine we had two identities, $e$ and $e'$ , for some operation $G$ . Then $e = G(e, e') = e'$ , so $e = e'$ , and so e and e' are in fact equal.

This usage of the word identity is common in abstract algebra.

See also the article Inverse with respect to an operation. This article is a stub. Help us out by expanding it.

@@ Line 1: / Line 1: @@
-{{stub}}
+There are at least two possible meanings in mathematics for the word '''identity'''.
-There are at least two possible meanings in mathematics for the word identity.
@@ Line 19: / Line 17: @@
 See also the article [[Inverse with respect to an operation]].
+{{stub}}
+[[Category:Elementary algebra]]
+[[Category:Abstract algebra]]
+[[Category:Defnition]]

Page

Toolbox

Search

Difference between revisions of "Identity"

Revision as of 11:38, 23 November 2007

Equations

Abstract Algebra