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I requested the creation of this article. I imagined that it would be a discussion of writing equations using the symbols of vectors such as gradients, curls, dot products, etc.. Also, I would like a discussion of how this was developed to be able to express physics/engineering equations independently of the coordinate system. A good example are the Navier Stokes equations article which expresses these equations in vector notation, indicial notation as well as Cartesian Coordinates (but not in spherical, polar, cylindrical). I planned on one day doing this myself, but I suspect it will be a while before I get to it. But I think it is a useful topic, especially since indicial notation has its own page. Slffea 23:52, 4 August 2006 (UTC)
Still working on this! Hit the wrong button.— Kbolino 13:59, 31 October 2007 (UTC)
I have updated this page to reflect my knowledge of the different notations as best I can and improve the organization. Some of it is solid (rectangular vectors), some of it is nearly invented (polar, cylindrical, spherical), and the rest somewhere in between. There is some information missing, such as how to write vectors in other spaces (complex space, continuous function space, polynomial space, etc.) Of course, none of it is cited--which is probably more important than the content itself. Hopefully this will provide a good starting point, from which the useful information can be referenced and improved, and the less useful (and accurate) information can be pruned.— Kbolino 08:14, 5 November 2007 (UTC)
132.66.22.20 changed the first sentence as follows (diff: [1])
The cross product of two vectors (in or )...
to
The cross product of two vectors (in or or whatever Field)...
with the edit comment: fixed inaccurate statement in cross product - it can be from any field whatsoever.
I thought the cross-product was defined for only and the cross-product article seems to agree. Qwfp ( talk) 13:41, 25 February 2008 (UTC)
To facilitate understanding of vectors for the more visual among us, could someone create some images illustrating like the difference between a scalar, 3d vectors, and the like? (I would except I'm not too clear myself).
Thanks. — Preceding unsigned comment added by 67.142.178.24 ( talk) 04:01, 20 June 2011 (UTC)
I was frustrated searching for where does the notation "r with a tilde below it" come from until I noticed the line in the second paragraph that says it's shorthand notation. I think we should include an example or two. 1Minow ( talk) 14:23, 22 March 2014 (UTC)
ISO 80000-2:2009 recommends italic bold serif for vector variables, but an example can't be given due to limitations in Wikipedia's LaTeX implementation and my own knowledge of Wikipedia markup. So I gave the example in CSS format instead with <span style="font-family: serif; font-size: large; font-weight: bold; font-style: italic">v</span>
. If anyone knows how to bold, italicize, and serif a single letter using Wikipedia's implementation of LaTeX, please revise.
Adelphious (
talk)
00:29, 4 April 2016 (UTC)
The following was removed as off-topic:
Note that a pipe misdirected readers away from Operational calculus ! — Rgdboer ( talk) 01:57, 7 November 2019 (UTC)
The term "rectangular vector" is not used in mathematics, except maybe at low level education. As a large part of the article is based on this uncommon terminology, I have simply clarified its definition, and tagged it as {{ cn}}. Nevertheless the article requires to be rewritten for making it conform to the standard terminology, and to allow sourcing it. D.Lazard ( talk) 11:09, 24 April 2023 (UTC)
![]() | This ![]() It is of interest to the following WikiProjects: | ||||||||||
|
I requested the creation of this article. I imagined that it would be a discussion of writing equations using the symbols of vectors such as gradients, curls, dot products, etc.. Also, I would like a discussion of how this was developed to be able to express physics/engineering equations independently of the coordinate system. A good example are the Navier Stokes equations article which expresses these equations in vector notation, indicial notation as well as Cartesian Coordinates (but not in spherical, polar, cylindrical). I planned on one day doing this myself, but I suspect it will be a while before I get to it. But I think it is a useful topic, especially since indicial notation has its own page. Slffea 23:52, 4 August 2006 (UTC)
Still working on this! Hit the wrong button.— Kbolino 13:59, 31 October 2007 (UTC)
I have updated this page to reflect my knowledge of the different notations as best I can and improve the organization. Some of it is solid (rectangular vectors), some of it is nearly invented (polar, cylindrical, spherical), and the rest somewhere in between. There is some information missing, such as how to write vectors in other spaces (complex space, continuous function space, polynomial space, etc.) Of course, none of it is cited--which is probably more important than the content itself. Hopefully this will provide a good starting point, from which the useful information can be referenced and improved, and the less useful (and accurate) information can be pruned.— Kbolino 08:14, 5 November 2007 (UTC)
132.66.22.20 changed the first sentence as follows (diff: [1])
The cross product of two vectors (in or )...
to
The cross product of two vectors (in or or whatever Field)...
with the edit comment: fixed inaccurate statement in cross product - it can be from any field whatsoever.
I thought the cross-product was defined for only and the cross-product article seems to agree. Qwfp ( talk) 13:41, 25 February 2008 (UTC)
To facilitate understanding of vectors for the more visual among us, could someone create some images illustrating like the difference between a scalar, 3d vectors, and the like? (I would except I'm not too clear myself).
Thanks. — Preceding unsigned comment added by 67.142.178.24 ( talk) 04:01, 20 June 2011 (UTC)
I was frustrated searching for where does the notation "r with a tilde below it" come from until I noticed the line in the second paragraph that says it's shorthand notation. I think we should include an example or two. 1Minow ( talk) 14:23, 22 March 2014 (UTC)
ISO 80000-2:2009 recommends italic bold serif for vector variables, but an example can't be given due to limitations in Wikipedia's LaTeX implementation and my own knowledge of Wikipedia markup. So I gave the example in CSS format instead with <span style="font-family: serif; font-size: large; font-weight: bold; font-style: italic">v</span>
. If anyone knows how to bold, italicize, and serif a single letter using Wikipedia's implementation of LaTeX, please revise.
Adelphious (
talk)
00:29, 4 April 2016 (UTC)
The following was removed as off-topic:
Note that a pipe misdirected readers away from Operational calculus ! — Rgdboer ( talk) 01:57, 7 November 2019 (UTC)
The term "rectangular vector" is not used in mathematics, except maybe at low level education. As a large part of the article is based on this uncommon terminology, I have simply clarified its definition, and tagged it as {{ cn}}. Nevertheless the article requires to be rewritten for making it conform to the standard terminology, and to allow sourcing it. D.Lazard ( talk) 11:09, 24 April 2023 (UTC)