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- ...ined and makes sense in general for this particular vector space. Both the dot product and the cross product are widely used in in the study of optics, mechanics ...</sub>) in <math>\mathbb{R}^n</math> with <math>1\leq n \leq 3</math>, the dot product is defined as the product of the magnitude of <b>A</b>, the magnitude of <b3 KB (575 words) - 12:41, 14 February 2011
- 12 bytes (1 word) - 21:07, 6 October 2007
- 131 bytes (17 words) - 13:46, 7 July 2008
- Auto-populated based on [[Special:WhatLinksHere/Dot product]]. Needs checking by a human.798 bytes (103 words) - 16:04, 11 January 2010
Page text matches
- * [[dot product]] of finite dimensional [[vector]]s242 bytes (36 words) - 12:38, 31 May 2009
- A bilinear or sesquilinear form on a vector space generalising the dot product in Euclidean spaces.135 bytes (19 words) - 15:24, 28 November 2008
- ...ined and makes sense in general for this particular vector space. Both the dot product and the cross product are widely used in in the study of optics, mechanics ...</sub>) in <math>\mathbb{R}^n</math> with <math>1\leq n \leq 3</math>, the dot product is defined as the product of the magnitude of <b>A</b>, the magnitude of <b3 KB (575 words) - 12:41, 14 February 2011
- Auto-populated based on [[Special:WhatLinksHere/Dot product]]. Needs checking by a human.798 bytes (103 words) - 16:04, 11 January 2010
- {{r|Dot product}}338 bytes (42 words) - 19:08, 5 October 2009
- {{r|Dot product}}508 bytes (65 words) - 16:07, 11 January 2010
- ...e (in the metric topology induced by the inner product), just like how the dot product makes it possible to define, in the Euclidean spaces, the projection of a v3 KB (511 words) - 00:25, 20 February 2010
- {{r|Dot product}}661 bytes (85 words) - 19:37, 11 January 2010
- ...a '''dyadic product''' of two vectors is a third vector product next to [[dot product]] and [[cross product]]. The dyadic product is a square [[matrix]] that rep3 KB (650 words) - 08:22, 2 December 2009
- ...1</sub>) = V<sub>2</sub>) can be calculated simply by multiplication and [[dot product|dot products]], without using either inverse trigonometry or square roots,4 KB (645 words) - 08:16, 22 April 2023
- ...he magnetic field '''H''') at the position d'''S''', the dot indicates a [[dot product]] between the vectors '''B''' and d'''S'''. The double integral is over a3 KB (415 words) - 13:04, 29 March 2009
- We recall that the length of a vector is the square root of the [[dot product]] of a vector with itself, ''A'' ≡ |'''A'''| = ('''A''' ⋅ '''A ...is the length of the projection of the vector '''A''' onto '''D'''. The [[dot product]] between '''A''' and '''D''' is |'''D'''| times the length ''h'',12 KB (1,961 words) - 13:04, 11 June 2009
- ...basis]] of <math>\scriptstyle \mathbb{R}^3</math>. The dot stands for a [[dot product]]. In the older literature one finds the notation div '''F''' for '''&nabla3 KB (514 words) - 02:14, 14 October 2013
- ...at circle times this angle. Write in [[spherical polar coordinates]] the [[dot product]]2 KB (419 words) - 07:31, 20 April 2024
- ...Riemannian metric is a generalisation of the usual idea of the scalar or [[dot product]] to a manifold. In other words, a Riemannian metric <math> g = \{g_p\}_{p5 KB (805 words) - 17:01, 28 November 2008
- ...''') is the electric field at the position d'''S''', the dot indicates a [[dot product]] between the vectors '''E''' and d'''S'''. The double integral is over a c6 KB (988 words) - 17:21, 2 November 2021
- ...which this Maxwell equation is written: '''[[nabla operator|∇]]''' [[dot product|•]] '''B''' = 0, which states that '''B''' is divergence-free.4 KB (674 words) - 05:17, 23 February 2009
- Here '''s''' is [[vector]] of magnitude |'''s'''| along the path. The [[dot product]] between the two vectors '''F''' and '''s''' is the product of their ma17 KB (2,892 words) - 23:00, 26 May 2010
- where ''R'' is the length of '''R''', the dot indicates the [[dot product]] between '''μ''' and '''R''', and ε<sub>0</sub> is the [[elect8 KB (1,270 words) - 18:42, 30 October 2021
- ...times;''p'' and the (''i'',''j'')th entry of ''AB'' is the [[vector|vector dot product]] of the ''i''th row of ''A'' and the ''j''th column of ''B''. Formally:15 KB (2,209 words) - 02:10, 14 February 2010