Orthogonal basis: Difference between revisions

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	In ], particularly ], an '''orthogonal basis''' for an ] {{mvar\|V}} is a ] for {{mvar\|V}} whose vectors are mutually ]. If the vectors of an orthogonal basis are ], the resulting basis is an ].		In ], particularly ], an '''orthogonal basis''' for an ] {{mvar\|V}} is a ] for {{mvar\|V}} whose vectors are mutually ]. If the vectors of an orthogonal basis are ], the resulting basis is an ].

	In ], an orthogonal basis is any basis obtained from a orthonormal basis (or Hilbert basis) using multiplication by nonzero ].		In ], an orthogonal basis is any basis obtained from an orthonormal basis (or Hilbert basis) using multiplication by nonzero ].

	Any orthogonal basis can be used to define a system of ] {{mvar\|V}}. Orthogonal (not necessarily orthonormal) bases are important due to their appearance from ] orthogonal coordinates in ]s, as well as in ] and ] manifolds.		Any orthogonal basis can be used to define a system of ] {{mvar\|V}}. Orthogonal (not necessarily orthonormal) bases are important due to their appearance from ] orthogonal coordinates in ]s, as well as in ] and ] manifolds.

Revision as of 17:19, 2 February 2014

In mathematics, particularly linear algebra, an orthogonal basis for an inner product space V is a basis for V whose vectors are mutually orthogonal. If the vectors of an orthogonal basis are normalized, the resulting basis is an orthonormal basis.

In functional analysis, an orthogonal basis is any basis obtained from an orthonormal basis (or Hilbert basis) using multiplication by nonzero scalars.

Any orthogonal basis can be used to define a system of orthogonal coordinates V. Orthogonal (not necessarily orthonormal) bases are important due to their appearance from curvilinear orthogonal coordinates in Euclidean spaces, as well as in Riemannian and pseudo-Riemannian manifolds.

The concept of an orthogonal (but not of an orthonormal) basis is applicable to a vector space V (over any field) equipped with a symmetric bilinear form ⟨·,·⟩, where orthogonality of two vectors v and w means ⟨v, w⟩ = 0. For an orthogonal basis {e_k} :

\langle \mathbf {e} _{j},\mathbf {e} _{k}\rangle =\left\{{\begin{array}{ll}q(\mathbf {e} _{k})&j=k\\0&j\neq k\end{array}}\right.\quad ,

where q is a quadratic form associated with ⟨·,·⟩: q(v) = ⟨v, v⟩ (in an inner product space q(v) = | v |). Hence,

\langle \mathbf {v} ,\mathbf {w} \rangle =\sum \limits _{k}q(\mathbf {e} _{k})v^{k}w^{k}\ ,

where v and w are components of v and w in {e_k} .

References

Lang, Serge (2004), Algebra, Graduate Texts in Mathematics, vol. 211 (Corrected fourth printing, revised third ed.), New York: Springer-Verlag, pp. 572–585, ISBN 978-0-387-95385-4
Milnor, J.; Husemoller, D. (1973). Symmetric Bilinear Forms. Ergebnisse der Mathematik und ihrer Grenzgebiete. Vol. 73. Springer-Verlag. p. 6. ISBN 3-540-06009-X. Zbl 0292.10016.

External links

Weisstein, Eric W. "Orthogonal Basis". MathWorld.

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Revision as of 08:21, 10 June 2013 editIncnis Mrsi (talk \| contribs)Extended confirmed users, Pending changes reviewers, Rollbackers11,646 edits there is no need to reiterate the definition of basis← Previous edit		Revision as of 17:19, 2 February 2014 edit undoMogism (talk \| contribs)Extended confirmed users, Pending changes reviewers185,177 editsm Cleanup/Typo fixing, typo(s) fixed: a orthonormal → an orthonormal using AWB Next edit →
Line 1:		Line 1:
	In ], particularly ], an '''orthogonal basis''' for an ] {{mvar\|V}} is a ] for {{mvar\|V}} whose vectors are mutually ]. If the vectors of an orthogonal basis are ], the resulting basis is an ].		In ], particularly ], an '''orthogonal basis''' for an ] {{mvar\|V}} is a ] for {{mvar\|V}} whose vectors are mutually ]. If the vectors of an orthogonal basis are ], the resulting basis is an ].

	In ], an orthogonal basis is any basis obtained from a orthonormal basis (or Hilbert basis) using multiplication by nonzero ].		In ], an orthogonal basis is any basis obtained from an orthonormal basis (or Hilbert basis) using multiplication by nonzero ].

	Any orthogonal basis can be used to define a system of ] {{mvar\|V}}. Orthogonal (not necessarily orthonormal) bases are important due to their appearance from ] orthogonal coordinates in ]s, as well as in ] and ] manifolds.		Any orthogonal basis can be used to define a system of ] {{mvar\|V}}. Orthogonal (not necessarily orthonormal) bases are important due to their appearance from ] orthogonal coordinates in ]s, as well as in ] and ] manifolds.