mathematics, commutativity is the ability to change the order of something without changing the end result. It is a fundamental property in most branches of mathematics and many proofs depend on it. The commutativity of simple operations was for many years implicitly assumed and the property was not given a name or attributed until the 19th century when mathematicians began to formalize the theory of mathematics.
The "commutative property" (or "commutative law") is a property associated with
binary operations and functions. Similarly, if the commutative property holds for a pair of elements under a certain binary operation then it is said that the two elements "commute" under that operation.
In group and
set theory, many algebraic structures are called commutative when certain operands satisfy the commutative property. In higher branches of math, such as analysis and linear algebrathe commutativity of well known operations (such as additionand multiplicationon real and complex numbers) is often used (or implicitly assumed) in proofs. [Axler, p.2] [Gallian, p.34] [p. 26,87]
The term "commutative" is used in several related senses. [Krowne, p.1] [Weisstein, "Commute", p.1]
binary operation∗ on a set "S" is said to be "commutative" if:: : - An operation that does not satisfy the above property is called "noncommutative".
2. One says that "x commutes" with "y" under ∗ if::
binary functionf:"A"×"A" → "B" is said to be "commutative" if::
History and etymology
Records of the implicit use of the commutative property go back to ancient times. The
Egyptians used the commutative property of multiplicationto simplify computing products. [Lumpkin, p.11] [Gay and Shute, p.?] Euclidis known to have assumed the commutative property of multiplication in his book "Elements". [O'Conner and Robertson, "Real Numbers"] Formal uses of the commutative property arose in the late 18th and early 19th century when mathematicians began to work on a theory of functions. Today the commutative property is a well known and basic property used in most branches of mathematics. Simple versions of the commutative property are usually taught in beginning mathematics courses.
The first use of the actual term "commutative" was in a memoir by Francois Servois in 1814, [Cabillón and Miller, "Commutative and Distributive"] [O'Conner and Robertson, "Servois"] which used the word "commutatives" when describing functions that have what is now called the commutative property. The word is a combination of the French word "commuter" meaning "to substitute or switch" and the suffix "-ative" meaning "tending to" so the word literally means "tending to substitute or switch." The term then appeared in English in "
Philosophical Transactions of the Royal Society" in 1844. [Cabillón and Miller, "Commutative and Distributive"]
The associative property is closely related to the commutative property. The associative property states that the order in which operations are performed does not affect the final result. In contrast, the commutative property states that the order of the terms does not affect the final result.
Symmetry can be directly linked to commutativity. When a commutative operator is written as a binary function then the resulting function is symmetric across the line "y = x". As an example, if we let a function "f" represent addition (a commutative operation) so that "f"("x","y") = "x" + "y" then "f" is a symmetric function which can be seen in the image on the right.
Commutative operations in everyday life
*Putting your shoes on resembles a commutative operation since it doesn't matter if you put the left or right shoe on first, the end result (having both shoes on), is the same.
*When making change we take advantage of the commutativity of addition. It doesn't matter what order we put the change in, it always adds to the same total.
Commutative operations in math
Two well-known examples of commutative binary operations are: [Krowne, p.1]
additionof real numbers, which is commutative since :::For example 4 + 5 = 5 + 4, since both expressions equal 9.
multiplicationof real numbers, which is commutative since:::For example, 3 × 5 = 5 × 3, since both expressions equal 15.
Noncommutative operations in everyday life
*Washing and drying your clothes resembles a noncommutative operation, if you dry first and then wash, you get a significantly different result than if you wash first and then dry.
Rubik's Cubeis noncommutative. For example, twisting the front face clockwise, the top face clockwise and the front face counterclockwise (FUF') does not yield the same result as twisting the front face clockwise, then counterclockwise and finally twisting the top clockwise (FF'U). The twists do not commute. This is studied in group theory.
Noncommutative operations in math
Mathematical structures and commutativity
abelian groupis a group whose group operation is commutative. [Gallian, p.34]
commutative ringis a ring whose multiplicationis commutative. (Addition in a ring is by definition always commutative.) [Gallian p.236]
* In a field both addition and multiplication are commutative. [Gallian p.250]
*cite book | first=Sheldon | last=Axler | title=Linear Algebra Done Right, 2e | publisher=Springer | year=1997 | id=ISBN 0-387-98258-2:"Abstract algebra theory. Covers commutativity in that context. Uses property throughout book.
*cite book| first=Frederick | last=Goodman | title=Algebra: Abstract and Concrete, Stressing Symmetry, 2e | publisher=Prentice Hall | year=2003 | id=ISBN 0-13-067342-0:"Abstract algebra theory. Uses commutativity property throughout book.
*cite book|first=Joseph|last=Gallian|title=Contemporary Abstract Algebra, 6e|year=2006|id=ISBN 0-618-51471-6:"Linear algebra theory. Explains commutativity in chapter 1, uses it throughout."
*http://www.ethnomath.org/resources/lumpkin1997.pdf Lumpkin, B. (1997). The Mathematical Legacy Of Ancient Egypt - A Response To Robert Palter. Unpublished manuscript.:"Article describing the mathematical ability of ancient civilizations."
*Robins, R. Gay, and Charles C. D. Shute. 1987. "The Rhind Mathematical Papyrus: An Ancient Egyptian Text". London: British Museum Publications Limited. ISBN 0-7141-0944-4:"Translation and interpretation of the
Rhind Mathematical Papyrus."
*Krowne, Aaron, PlanetMath|title=Commutative|urlname=Commutative, Accessed 8 August 2007.:"Definition of commutativity and examples of commutative operations"
*MathWorld|title=Commute|urlname=Commute, Accessed 8 August 2007.:"Explanation of the term commute"
* [http://planetmath.org/?op=getuser&id=2760 Yark] . PlanetMath|title=Examples of non-commutative operations|urlname=ExampleOfCommutative, Accessed 8 August 2007:"Examples proving some noncommutative operations"
*O'Conner, J J and Robertson, E F. [http://www-history.mcs.st-andrews.ac.uk/HistTopics/Real_numbers_1.html MacTutor history of real numbers] , Accessed 8 August 2007:"Article giving the history of the real numbers"
*Cabillón, Julio and Miller, Jeff. [http://members.aol.com/jeff570/c.html Earliest Known Uses Of Mathematical Terms] , Accessed 8 August 2007:"Page covering the earliest uses of mathematical terms"
*O'Conner, J J and Robertson, E F. [http://www-groups.dcs.st-and.ac.uk/~history/Biographies/Servois.html MacTutor biography of François Servois] , Accessed 8 August 2007:"Biography of Francois Servois, who first used the term"
Particle statistics(for commutativity in physics)
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commutativity — com mu*ta*tiv i*ty, n. (Math.) the property of a binary operation or operator such that the result of one term operating on a second is equal to the result of the second term operating on the first. [GG] Note: If the symbol * is taken to be a… … The Collaborative International Dictionary of English
commutativity — noun Date: 1929 the property of being commutative < the commutativity of a mathematical operation > … New Collegiate Dictionary
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commutativity — komutatyvumas statusas T sritis informatika apibrėžtis Operacijos savybė: operandus sukeitus vietomis rezultatas nekinta. Komutatyvumas būdingas sudėčiai (a+b = b+a) ir daugybai (a×b = b×a). Dar vartojama perstatomumas. atitikmenys: angl.… … Enciklopedinis kompiuterijos žodynas
commutativity — kəˌmyüd.əˈtivəd.ē, ˌkämyəd.əˈti noun ( es) : the property of being commutative the commutativity of a mathematical operation … Useful english dictionary
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