Position vectors

Descrição

Part of our series on Vectors, learn more about position vectors in this study note with graphs and examples.
Niamh Ryan
Notas por Niamh Ryan, atualizado more than 1 year ago
Niamh Ryan
Criado por Niamh Ryan mais de 7 anos atrás
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Resumo de Recurso

Página 1

What are position vectors?

A position vector is the vector of an arrow drawn to from an origin to a point. Look at the example below - a Cartesian plane in which we see points AA A and BB B The position vector of AA A connects the origin, marked OO O , to AA A - it can be written as a⃗ a→ \vec a or OA→OA→ \vec{OA} . Similarly, the position vector of \(B\) connects the origin to BB B - it can be written as b⃗ b→ \vec b or OB→OB→ \vec{OB} It is important that the letters are written in this order. The vector BO→BO→ \vec{BO} would connect B to the origin and therefore represents −b⃗ −b→ -\vec b .   If you are using Cartesian components to describe a position vector, the Cartesian coordinates of  a point can be used to describe  the position vector of that point. For example, AA A has the coordinates (1,4)(1,4) (1,4) .  This means its position vector can be written as a⃗ =a→= \vec a=1ı⃗ +4ȷ⃗ 1ı→+4ȷ→ 1 \vec{\imath} + 4 \vec{\jmath} or a⃗ =[14]a→=[14] \vec a= \begin{bmatrix}1\\4 \\\end{bmatrix} . Similarly,   BB B has the coordinates (−3,−1)(−3,−1) (-3,-1) .  This means its position vector can be written as b⃗ =b→= \vec b=−3ı⃗ +−1ȷ⃗ −3ı→+−1ȷ→ -3 \vec{\imath} + -1 \vec{\jmath} or b⃗ =[−3−1]b→=[−3−1] \vec b= \begin{bmatrix}-3\\-1 \\\end{bmatrix} .

Página 2

Distance between two points

Position vectors can be used to describe the vector between two points. The position vector \( \vec{AB}\) goes from \(A\) to \(B\) Going from \(A\) to \(B\) is the same as going from \(A\) to \(O\) and then from \(O\) to \(B\) Therefore, \( \vec{AB}= \vec b - \vec a\)   This means that the component form of \( \vec{AB}\) can be found by subtracting the components of \(A\) from \(B\), i.e. \[ \vec{AB}= \vec b - \vec a\] \[= \begin{bmatrix}-3\\-1 \\\end{bmatrix} -\begin{bmatrix}1\\4 \\\end{bmatrix}=\begin{bmatrix}-4\\-5 \\\end{bmatrix}\] or  \[\Big(-3 \vec{\imath} + -1 \vec{\jmath}\Big) - \Big(1 \vec{\imath} + 4 \vec{\jmath}\Big) = (-3-1) \vec{\imath} + (-1-4) \vec{\jmath}=-4 \vec{\imath}-5 \vec{\jmath}\]   The magnitude of this vector can be used to calculate the distance between the two points. \[ |\vec {AB} | = \sqrt{(-4)^2+(-5)^2}= \sqrt{16+25}=\sqrt{41}\] Note: \[ \vec{AB}= \vec b - \vec a\]  \[ \vec{BA}= \vec a - \vec b\] \[ \therefore \vec{BA}=-\vec{AB}\]

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