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- {{r|Inner product space}}1 KB (169 words) - 12:00, 1 September 2024
- {{r|Inner product space}}359 bytes (48 words) - 15:04, 28 July 2009
- ...cal objects belong to—or are associated with—some [[linear space]] with [[inner product]]. The algebraic form of a physical quantity is—explicitly or implicitly� ...ap of the Cartesian product ℝ<sup>3</sup>×ℝ<sup>3</sup> into ℝ). The inner product satisfies9 KB (1,373 words) - 06:21, 11 December 2009
- {{r|Inner product}}576 bytes (77 words) - 19:04, 11 January 2010
- {{r|inner product space}}492 bytes (60 words) - 15:09, 28 July 2009
- {{r|Inner product space}}565 bytes (76 words) - 19:05, 11 January 2010
- {{r|Inner product space}}575 bytes (81 words) - 07:00, 16 July 2024
- ...space]] over the sub-field <math>F</math> of real or complex numbers with inner product <math>\langle \cdot,\cdot \rangle</math>, and let <math>x_1,x_2,\ldots,x_n<2 KB (305 words) - 12:00, 23 August 2024
- This relation can be immediately generalized to ''m''-dimensional inner product spaces. Let the space ''V''<sub>''m''</sub> allow an orthogonal direct sum ...'-dimensional linear subspace of a linear space of dimension ''m''.) The inner product of two vectors ''v'' and ''w'' is notated as (''v'', ''w''), which is comm8 KB (1,366 words) - 09:12, 10 August 2009
- {{r|Inner product space}}710 bytes (88 words) - 17:01, 1 August 2024
- {{r|Inner product space}}742 bytes (93 words) - 07:01, 17 September 2024
- ...ite inner product between the elements ψ and φ of the same complex inner product space. We follow the physical convention11 KB (1,763 words) - 12:01, 29 July 2024
- ...[[eigenvector]]s, [[linear operators]], [[matrix representation]]s, and [[inner product]]s find broad application in [[science]].1,006 bytes (139 words) - 07:01, 12 September 2024
- The distance is defined by means of the following positive definite [[inner product]] on ℝ<sup>''n''</sup>, ...b>i </sub> of '''y'''. Further, ⟨'''a''', '''b'''⟩ stands for an inner product between '''a''' and '''b'''.9 KB (1,407 words) - 07:00, 14 August 2024
- {{r|Inner product}}1,013 bytes (134 words) - 12:01, 18 September 2024
- Formally, the Euclidean plane is a 2-dimensional [[affine space]] with [[inner product]].[[Category:Suggestion Bot Tag]]1 KB (167 words) - 07:00, 14 August 2024
- ...que complements each of the other). However, if ''V'' is in addition an [[inner product]] space, then there is a unique ''orthogonal complement''1 KB (199 words) - 12:00, 31 July 2024
- {{r|Inner product}}1,000 bytes (156 words) - 12:00, 31 July 2024
- * [[Inner product space]]982 bytes (148 words) - 07:17, 3 December 2007
- {{r|Inner product space}}1 KB (165 words) - 17:01, 27 August 2024