Difference between revisions of "Canonical linear map"
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Revision as of 18:10, 1 June 2015
Definition
A canonical linear map, or natural linear map, is a linear map that can be stated independently of any basis.[1]
Examples
Identity
Given a vector space [ilmath](V,F)[/ilmath] (for some field [ilmath]F[/ilmath]) the linear map given by:
- [math]1_V:V\rightarrow V[/math] given by [math]1_V:v\mapsto v[/math] is a canonical isomorphism from [ilmath]V[/ilmath] to itself.
- because it maps [ilmath]v[/ilmath] to [ilmath]v[/ilmath] irrespective of basis
Projection of direct sum
Consider the vector space [ilmath]V\oplus W[/ilmath] where [ilmath]\oplus[/ilmath] denotes the direct sum of vector spaces. The projections defined by:
- [math]1_V:V\oplus W\rightarrow V[/math] with [math]1_V:(v,w)\mapsto v[/math]
- [math]P_V:V\oplus W\rightarrow V\oplus W[/math] with [math]P_V:(v,w)\mapsto (v,0_w)[/math]
- [math]1_V:V\oplus W\rightarrow W[/math] with [math]1_W:(v,w)\mapsto w[/math]
- [math]P_V:V\oplus W\rightarrow V\oplus W[/math] with [math]P_W:(v,w)\mapsto (0_v,w)[/math]
are all canonical linear maps
References
- ↑ Linear Algebra via Exterior Algebra - Sergei Wintzki