Associativity: Difference between revisions
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imported>Richard Pinch (added power-associative) |
imported>Richard Pinch (added left and right alternative laws; supplied reference) |
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Examples of associative operations are [[addition]] and [[multiplication]] of [[integer]]s, [[rational number]]s, [[real number|real]] and [[complex number]]s. In this context associativity is often referred to as the ''associative law''. [[Function composition]] is associative. | Examples of associative operations are [[addition]] and [[multiplication]] of [[integer]]s, [[rational number]]s, [[real number|real]] and [[complex number]]s. In this context associativity is often referred to as the ''associative law''. [[Function composition]] is associative. | ||
An important example of an algebraic structure in which the multiplication is not associative is the [[octonion]]s. | |||
==Related properties== | |||
An operation is '''left alternative''' if | |||
:<math> (x \star x) \star y = x \star (x \star y) \,</math> | |||
for all ''x'' and ''y'': it is '''right alternative''' if | |||
:<math> (y \star x) \star x = y \star (x \star x) . \,</math> | |||
An operation is '''power-associative''' if | An operation is '''power-associative''' if | ||
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for all ''x''. In such cases the expression <math>x^n</math> is well-defined for all positive integers ''n''. | for all ''x''. In such cases the expression <math>x^n</math> is well-defined for all positive integers ''n''. | ||
==References== | |||
* {{cite book | author=Richard D. Schafer | title=An introduction to Non-associative algebras | publisher=[[Dover Publications]] | year=1995 | isbn=0-486-68813-5 | pages=1-8 }} | |||
Revision as of 01:26, 6 November 2008
In algebra, associativity is a property of binary operations. If is a binary operation then the associative property is the condition that
for all x, y and z.
Examples of associative operations are addition and multiplication of integers, rational numbers, real and complex numbers. In this context associativity is often referred to as the associative law. Function composition is associative.
An important example of an algebraic structure in which the multiplication is not associative is the octonions.
Related properties
An operation is left alternative if
for all x and y: it is right alternative if
An operation is power-associative if
for all x. In such cases the expression is well-defined for all positive integers n.
References
- Richard D. Schafer (1995). An introduction to Non-associative algebras. Dover Publications, 1-8. ISBN 0-486-68813-5.