Apakah ruang vektor sama dengan bidang vektor? Jika tidak, apa perbedaan di antara mereka?


Jawaban 1:

Tidak.

AvectorspaceoverafieldFisaset[math]V[/math],togetherwithtwooperations,commonlyknownasvectoraddition(whichtakestwoelementsof[math]V[/math]andoutputsanotherelementof[math]V[/math])andscalarmultiplication(whichtakesanelementof[math]F[/math]andanelementof[math]V[/math]andoutputsanotherelementof[math]V[/math]),suchthat,if[math]u,v,wV[/math]and[math]a,bF[/math]:A vector space over a field F is a set [math]V[/math], together with two operations, commonly known as vector addition (which takes two elements of [math]V[/math] and outputs another element of [math]V[/math]) and scalar multiplication (which takes an element of [math]F[/math] and an element of [math]V[/math] and outputs another element of [math]V[/math]), such that, if [math]\textbf{u},\textbf{v},\textbf{w}\in V[/math] and [math]a,b\in F[/math]:

  1. u+v=v+u[math]u+(v+w)=(u+v)+w[/math]Thereexistssomevector[math]0[/math]suchthat,forevery[math]v[/math],[math]v+0=v[/math]Foreveryvector[math]v[/math],thereexistssomevector[math]v[/math]suchthat[math]v+(v)=0[/math][math]a(bv)=(ab)v[/math]Foreveryvector[math]v[/math],[math]1Fv=v[/math],where[math]1F[/math]isthemultiplicativeidentityin[math]F[/math][math]a(u+v)=au+av[/math][math](a+b)v=av+bv[/math]\textbf{u}+\textbf{v} = \textbf{v}+\textbf{u}[math]\textbf{u}+(\textbf{v}+\textbf{w}) = (\textbf{u}+\textbf{v})+\textbf{w}[/math]There exists some vector [math]\textbf{0}[/math] such that, for every [math]\textbf{v}[/math], [math]\textbf{v}+\textbf{0} = \textbf{v}[/math]For every vector [math]\textbf{v}[/math], there exists some vector [math]-\textbf{v}[/math] such that [math]\textbf{v}+(-\textbf{v}) = \textbf{0}[/math][math]a(b\textbf{v}) = (ab)\textbf{v}[/math]For every vector [math]\textbf{v}[/math], [math]1_F\textbf{v} = \textbf{v}[/math], where [math]1_F[/math] is the multiplicative identity in [math]F[/math][math]a(\textbf{u}+\textbf{v}) = a\textbf{u}+a\textbf{v}[/math][math](a+b)\textbf{v} = a\textbf{v}+b\textbf{v}[/math]

Avectorfieldisafunctionthattakespointsinsomemanifoldasinputsandreturnstangentvectorstothemanifoldasoutputs.Alotofthetime,themanifoldwillbeRn,butitdoesnthavetobe.Itcanbeanyarbitrarymanifold.(Initially,Ihadsaidthatavectorfieldwasamapbetweenvectorspaces,but,aspointedoutbyRuskoRuskov,thisisnotcorrect.)A vector field is a function that takes points in some manifold as inputs and returns tangent vectors to the manifold as outputs. A lot of the time, the manifold will be \mathbb{R}^n, but it doesn’t have to be. It can be any arbitrary manifold. (Initially, I had said that a vector field was a map between vector spaces, but, as pointed out by Rusko Ruskov, this is not correct.)


Jawaban 2:

Ruang vektor adalah sekumpulan objek yang berperilaku seperti vektor. Mirip dengan ruang acara - set acara yang bisa terjadi.

Bidang vektor lebih mirip fungsi dari ruang vektor ke ruang vektor lain.

Biasanya bidang vektor juga terdiferensiasi atau kontinu. Yang akan membutuhkan struktur tambahan untuk dikenakan untuk menentukan apa yang turunan dan apa yang dimaksud dengan terus menerus.