Derivation (mathematics): Difference between revisions

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#REDIRECT [[Derivative#Formal derivative]]
In [[mathematics]], a '''derivation''' is a map which has formal algebraic properties generalising those of the [[derivative]].
 
Let ''R'' be a [[ring (mathematics)]] and ''A'' an ''R''-algebra (''A'' is a ring containing a copy of ''R'' in the [[centre of a ring|centre]]).  A derivation is an ''R''-linear map ''D'' with the property that
 
:<math>D(ab) = a.D(b) + D(a).b .\,</math>
 
The ''constants'' of ''D'' are the elements mapped to zero.  The constants include the copy of ''R'' inside ''A''.
 
A derivation "on" ''A'' is a derivation from ''A'' to ''A''.
 
Linear combinations of derivations are again derivations, so the derivations from ''A'' to ''M'' form an ''R''-module, denoted Der<sub>''R''</sub>(''A'',''M'').
 
==Examples==
* The [[zero map]] is a derivation.
* The [[formal derivative]] is a derivation on the polynomial ring ''R''[''X''] with constants ''R''.
 
==Universal derivation==
There is a ''universal'' derivation Ω such that
 
:<math> \operatorname{Der}_R(A,M) = \operatorname{Hom}_A(\Omega,M) \,</math>
 
as a [[functor]]ial isomorphism.
 
==References==
* {{cite book | author=Serge Lang | authorlink=Serge Lang | title=Algebra | edition=3rd ed | publisher=[[Addison-Wesley]] | year=1993 | isbn=0-201-55540-9 | pages=746-749 }}

Revision as of 01:28, 21 December 2008

In mathematics, a derivation is a map which has formal algebraic properties generalising those of the derivative.

Let R be a ring (mathematics) and A an R-algebra (A is a ring containing a copy of R in the centre). A derivation is an R-linear map D with the property that

The constants of D are the elements mapped to zero. The constants include the copy of R inside A.

A derivation "on" A is a derivation from A to A.

Linear combinations of derivations are again derivations, so the derivations from A to M form an R-module, denoted DerR(A,M).

Examples

Universal derivation

There is a universal derivation Ω such that

as a functorial isomorphism.

References