Difference between revisions of "Closure"
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*The rational number system <math>\mathbb{Q}</math> has closure in [[addition]], [[subtraction]], [[multiplication]], and [[division]] | *The rational number system <math>\mathbb{Q}</math> has closure in [[addition]], [[subtraction]], [[multiplication]], and [[division]] | ||
*The natural and whole number systems <math>\mathbb{Z}^+,\mathbb{Z}^0</math> have closure in [[addition]] and [[multiplication]]. | *The natural and whole number systems <math>\mathbb{Z}^+,\mathbb{Z}^0</math> have closure in [[addition]] and [[multiplication]]. | ||
− | *The complex number system <math>\mathbb{C} | + | *The complex number system <math>\mathbb{C}</math> has closure in [[addition]] and [[subtraction]]. |
==See Also== | ==See Also== |
Revision as of 00:03, 19 November 2007
Closure is a property of an abstract algebraic structure, such as a set, group, ring, or field
Definition
An algebraic structure is said to have closure in a binary operation
if for any
,
. In words, when any two members of
are combined using the operation, the result also is a member of
.
Examples
- The real number system
has closure in addition, subtraction, multiplication, division, exponentiation, and also higher level operations such as
.
- The rational number system
has closure in addition, subtraction, multiplication, and division
- The natural and whole number systems
have closure in addition and multiplication.
- The complex number system
has closure in addition and subtraction.