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- ...ane is special—there is no origin. A '''real''' ''n''-'''dimensional affine space''' is distinguished from the [[vector space]] <font style = "vertical-align ...V''<sub>''2''</sub>, called the ''difference space'', the plane is an <b>affine space of dimension ''2''</b>, denoted by ''A''<sub>2</sub>.15 KB (2,366 words) - 09:09, 4 April 2010
- 144 bytes (20 words) - 07:16, 12 November 2008
- Auto-populated based on [[Special:WhatLinksHere/Affine space]]. Needs checking by a human.616 bytes (79 words) - 07:47, 8 January 2010
Page text matches
- {{r|Affine space}}359 bytes (48 words) - 15:04, 28 July 2009
- {{r|Affine space}}592 bytes (77 words) - 19:15, 11 January 2010
- {{r|Affine space}}566 bytes (74 words) - 16:25, 11 January 2010
- In an [[affine space]] or [[vector space]] of [[dimension (vector space)|dimension]] ''n'' we ta1 KB (187 words) - 03:54, 1 April 2010
- Auto-populated based on [[Special:WhatLinksHere/Affine space]]. Needs checking by a human.616 bytes (79 words) - 07:47, 8 January 2010
- ** [[Affine space]] versus [[vector space]];1 KB (168 words) - 12:06, 22 November 2008
- {{r|Affine space}}441 bytes (56 words) - 11:16, 11 January 2010
- {{r|Affine space}}551 bytes (71 words) - 18:22, 11 January 2010
- ...ane is special—there is no origin. A '''real''' ''n''-'''dimensional affine space''' is distinguished from the [[vector space]] <font style = "vertical-align ...V''<sub>''2''</sub>, called the ''difference space'', the plane is an <b>affine space of dimension ''2''</b>, denoted by ''A''<sub>2</sub>.15 KB (2,366 words) - 09:09, 4 April 2010
- {{r|Affine space}}631 bytes (81 words) - 20:07, 11 January 2010
- ...product. A general Euclidean space may be defined as an ''n''-dimensional affine space with inner product. Although classical Euclidean geometry does not introd9 KB (1,403 words) - 02:22, 14 October 2013
- {{r|Affine space}}879 bytes (114 words) - 03:09, 8 March 2024
- {{r|Affine space}}1,019 bytes (129 words) - 03:09, 8 March 2024
- ...r displacements. If we regard Euclidean space of ''n'' dimensions as an [[affine space]] built on a [[real number|real]] [[vector space]] '''R'''<sup>''n''</sup>3 KB (392 words) - 14:42, 28 November 2008
- * [[Affinely independent set]]s in an [[affine space]];2 KB (334 words) - 16:29, 7 February 2009
- Formally, the Euclidean plane is a 2-dimensional [[affine space]] with [[inner product]].1 KB (163 words) - 15:47, 25 November 2008
- ...is a three-dimensional [[inner product space]]. For further details see [[Affine space#Euclidean space]] and [[space (mathematics)]]. The Euclidean plane, that is In this approach a line in an ''n''-dimensional affine space (''n'' ≥ 1) is defined as a (proper or improper) ''one-dimensional affi10 KB (1,620 words) - 03:09, 8 March 2024
- ...is a three-dimensional [[inner product space]]. For further details see [[Affine space#Euclidean space]] and [[space (mathematics)]]. The Euclidean plane, that is In this approach a line in an ''n''-dimensional affine space (''n'' ≥ 1) is defined as a (proper or improper) ''one-dimensional affi10 KB (1,620 words) - 03:09, 8 March 2024
- ...wn from high-school geometry, is a collection of points (a 2-dimensional [[affine space]]) between which a distance is defined. One can single out a point ''O'', t4 KB (632 words) - 10:13, 6 January 2010
- ...is a three-dimensional [[inner product space]]. For further details see [[Affine space#Euclidean space]] and [[space (mathematics)]]. In this approach a plane in an ''n''-dimensional affine space (''n'' ≥ 2) is defined as a (proper or improper) ''two-dimensional affi16 KB (2,609 words) - 03:09, 8 March 2024