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Importing Wikidata short description: "Physical quantity that is a vector" |
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{{Short description|Physical quantity that is a vector}}
In the [[natural sciences]], a '''vector quantity''' (also known as a '''vector physical quantity''', '''physical vector''', or simply '''vector''') is a [[vector (mathematics and physics)|vector]]-valued [[physical quantity]].<ref name="a306">{{cite web | title=Details for IEV number 102-03-21: "vector quantity" | website=International Electrotechnical Vocabulary | url=https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=102-03-21 | language=ja | access-date=2024-09-07}}</ref><ref name="o531">{{cite web | title=Details for IEV number 102-03-04: "vector" | website=International Electrotechnical Vocabulary | url=https://www.electropedia.org/iev/iev.nsf/display?openform&ievref=102-03-04 | language=ja | access-date=2024-09-07}}</ref>
It is typically formulated as the product of a ''[[unit of measurement]]'' and a ''vector [[numerical value]]'' ([[unitless]]), often a [[Euclidean vector]] with [[vector norm|magnitude]] and [[direction (geometry)|direction]].
For example, a [[position vector]] in [[physical space]] may be expressed as [[three dimensional|three]] [[Cartesian coordinates]] with [[SI unit]] of [[meters]].
In [[physics]] and [[engineering]], particularly in [[mechanics]], a physical vector may be endowed with additional structure compared to a geometrical vector.<ref name="m813">{{cite book | last=Rao | first=A. | title=Dynamics of Particles and Rigid Bodies: A Systematic Approach | publisher=Cambridge University Press | year=2006 | isbn=978-0-521-85811-3 | url=https://books.google.com
A '''bound vector''' is defined as the combination of an ordinary vector quantity and a ''[[point of application]]'' or ''point of action''.<ref name="a306"/>
<ref name=Teodorescu>{{Cite book |last=Teodorescu |first=Petre P. |url=https://books.google.com
Bound vector quantities are formulated as a ''[[directed line segment]]'', with a definite initial point besides the magnitude and direction of the main vector.<ref name="a306"/><ref name="m813"/>
For example, a [[force]] on the [[Euclidean plane]] has two Cartesian components in SI unit of [[newtons]] and an accompanying two-dimensional position vector in meters, for a total of four numbers on the plane (and six in space).<ref name="p822">{{cite book | last1=Merches | first1=I. | last2=Radu | first2=D. | title=Analytical Mechanics: Solutions to Problems in Classical Physics | publisher=CRC Press | year=2014 | isbn=978-1-4822-3940-9 | url=https://books.google.com/books?id=e9XMBQAAQBAJ&pg=PA379 | access-date=2024-09-09 | page=379}}</ref><ref name="z733">{{cite book |
A simpler example of a bound vector is the [[translation (geometry)|translation]] vector from an initial point to an end point; in this case, the bound vector is an [[ordered pair]] of points in the same position space, with all coordinates having the same [[quantity dimension]] and unit (length an meters).<ref name="p422">{{cite book | title=Differential Geometry: A Geometric Introduction | chapter=Appendix A. Linear Algebra from a Geometric Point of View | publisher=David W. Henderson | publication-place=Ithaca, NY | date=2013 | isbn=978-1-4297-9984-3 | doi=10.3792/euclid/9781429799843-13 | pages=121–138}}</ref><ref name="w531"/>
A '''sliding vector''' is the combination of an ordinary vector quantity and a ''[[line of application]]'' or ''line of action'', over which the vector quantity can be translated (without rotations).
A '''free vector''' is a vector quantity having an undefined [[Support (mathematics)|support]] or region of application; it can be freely translated with no consequences; a [[displacement vector]] is a prototypical example of free vector.
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Vector quantities are a generalization of [[scalar quantity|scalar quantities]] and can be further generalized as [[tensor quantity|tensor quantities]].<ref name="w531">{{cite web | title=ISO 80000-2:2019 - Quantities and units - Part 2: Mathematics | website=ISO | date=2013-08-20 | url=https://www.iso.org/standard/64973.html | access-date=2024-09-08}}</ref>
Individual vectors may be ordered in a [[sequence]] over time (a [[time series]]), such as position vectors [[discretizing]] a [[trajectory]].
In the natural sciences, the term "vector quantity" also encompasses ''[[vector field]]s'', which are [[vector-valued function]]s over a [[region (mathematics)|region]] of space, such as [[wind velocity]] over Earth's surface.▼
A vector may also result from the [[function evaluation|evaluation]], at a particular instant, of a continuous [[vector-valued function]] (e.g., the [[pendulum equation]]).
▲In the natural sciences, the term "vector quantity" also encompasses ''[[vector field]]s''
[[Pseudo vector]]s and [[bivector]]s are also admitted as physical vector quantities.
==See also==
*[[List of vector quantities]]
*[[Vector representation]]
==References==
{{reflist}}
{{physics-stub}}
[[Category:
[[Category:Vectors (mathematics and physics)]]
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