PlanetMath (more info)
 Math for the people, by the people.
Encyclopedia | Requests | Forums | Docs | Wiki | Random | RSS  
Login
create new user
name:
pass:
forget your password?
Main Menu
sections
Encyclopædia
Papers
Books
Expositions

meta
Requests (191)
Orphanage
Unclass'd (1)
Unproven (496)
Corrections (7)
Classification

talkback
Polls
Forums
Feedback
Bug Reports

downloads
Snapshots
PM Book

information
News
Docs
Wiki
ChangeLog
TODO List
Legalese
About
Owner confidence rating: High Entry average rating: Very high
bilinear map (Definition)

Let $R$ be a ring, and let $M$, $N$ and $P$ be modules over $R$. A function $f\colon M\times N\to P$ is said to be a bilinear map if for each $b\in M$ the function $h\colon N\to P$ defined by $h(y)=f(b,y)$ for all $y\in N$ is linear (that is, an $R$-module homomorphism), and for each $c\in N$ the function $g\colon M\to P$ defined by $g(x)=f(x,c)$ for all $x\in M$ is linear. Sometimes we may say that the function is $R$-bilinear, in order to make the base ring clear.

A common case is a bilinear map $V\times V\to V$, where $V$ is a vector space over a field $K$; the vector space with this operation then forms an algebra over $K$.

If $R$ is a commutative ring, then every $R$-bilinear map $M\times N\to P$ corresponds in a natural way to a linear map $M\otimes N\to P$, where $M\otimes N$ is the tensor product of $M$ and $N$ (over $R$).



"bilinear map" is owned by yark.
(view preamble)

View style:

See Also: multi-linear, bilinear form, scalar map

Other names:  bilinear function, bilinear operation, bilinear mapping, bilinear operator, bilinear pairing, pairing
Also defines:  bilinear

Attachments:
bilinearity and commutative rings (Theorem) by Algeboy
Log in to rate this entry.
(view current ratings)

Cross-references: tensor product, linear map, map, commutative ring, algebra, field, vector space, function, modules, ring
There are 38 references to this entry.

This is version 8 of bilinear map, born on 2005-12-01, modified 2007-01-14.
Object id is 7510, canonical name is BilinearMap.
Accessed 8615 times total.

Classification:
AMS MSC13C99 (Commutative rings and algebras :: Theory of modules and ideals :: Miscellaneous)
Pending Errata and Addenda
None.
[ View all 2 ]
Discussion
Style: Expand: Order:
forum policy

No messages.

Interact
post | correct | update request | add derivation | add example | add (any)