2.3 The dot product (Page 5/16)

Calculus volume 3 Page 5 / 16

On June 1, AAA Party Supply Store decided to increase the price they charge for party favors to $2 per package. They also changed suppliers for their invitations, and are now able to purchase invitations for only 10¢ per package. All their other costs and prices remain the same. If AAA sells 1408 invitations, 147 party favors, 2112 decorations, and 1894 food service items in the month of June, use vectors and dot products to calculate their total sales and profit for June.

Sales = $15,685.50; profit = $14,073.15

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Projections

As we have seen, addition combines two vectors to create a resultant vector. But what if we are given a vector and we need to find its component parts? We use vector projections to perform the opposite process; they can break down a vector into its components. The magnitude of a vector projection is a scalar projection. For example, if a child is pulling the handle of a wagon at a 55° angle, we can use projections to determine how much of the force on the handle is actually moving the wagon forward ( [link] ). We return to this example and learn how to solve it after we see how to calculate projections.

This figure is the image of a wagon with a handle. The handle is represented by the vector “F.” The angle between F and the horizontal direction of the wagon is 55 degrees. — When a child pulls a wagon, only the horizontal component of the force propels the wagon forward.

Definition

The vector projection of v onto u is the vector labeled proj _u v in [link] . It has the same initial point as u and v and the same direction as u , and represents the component of v that acts in the direction of u . If $θ$ represents the angle between u and v , then, by properties of triangles, we know the length of ${proj}_{u} v$ is $‖ {proj}_{u} v ‖ = ‖ v ‖ cos θ .$ When expressing $cos θ$ in terms of the dot product, this becomes

\begin{matrix} ‖ {proj}_{u} v ‖ & = ‖ v ‖ cos θ \\ = ‖ v ‖ (\frac{u \cdot v}{‖ u ‖ ‖ v ‖}) \\ = \frac{u \cdot v}{‖ u ‖} . \end{matrix}

We now multiply by a unit vector in the direction of u to get ${proj}_{u} v :$

{proj}_{u} v = \frac{u \cdot v}{‖ u ‖} (\frac{1}{‖ u ‖} u) = \frac{u \cdot v}{{‖ u ‖}^{2}} u .

The length of this vector is also known as the scalar projection of v onto u and is denoted by

‖ {proj}_{u} v ‖ = {comp}_{u} v = \frac{u \cdot v}{‖ u ‖} .

This image has a vector labeled “v.” There is also a vector with the same initial point labeled “proj sub u v.” The third vector is from the terminal point of proj sub u v in the same direction labeled “u.” A broken line segment from the initial point of u to the terminal point of v is drawn and is perpendicular to u. — The projection of v onto u shows the component of vector v in the direction of u .

Finding projections

Find the projection of v onto u.

$v = ⟨ 3, 5, 1 ⟩$ and $u = ⟨ −1, 4, 3 ⟩$
$v = 3 i - 2 j$ and $u = i + 6 j$

Substitute the components of v and u into the formula for the projection:

$\begin{matrix} {proj}_{u} v & = \frac{u \cdot v}{{‖ u ‖}^{2}} u \\ = \frac{⟨ −1, 4, 3 ⟩ \cdot ⟨ 3, 5, 1 ⟩}{{‖ ⟨ −1, 4, 3 ⟩ ‖}^{2}} ⟨ −1, 4, 3 ⟩ \\ = \frac{−3 + 20 + 3}{{(−1)}^{2} + 4^{2} + 3^{2}} ⟨ −1, 4, 3 ⟩ \\ = \frac{20}{26} ⟨ −1, 4, 3 ⟩ \\ = ⟨ - \frac{10}{13}, \frac{40}{13}, \frac{30}{13} ⟩ . \end{matrix}$
To find the two-dimensional projection, simply adapt the formula to the two-dimensional case:

$\begin{matrix} {proj}_{u} v & = \frac{u \cdot v}{{‖ u ‖}^{2}} u \\ = \frac{(i + 6 j) \cdot (3 i - 2 j)}{{‖ i + 6 j ‖}^{2}} (i + 6 j) \\ = \frac{1 (3) + 6 (−2)}{1^{2} + 6^{2}} (i + 6 j) \\ = - \frac{9}{37} (i + 6 j) \\ = - \frac{9}{37} i - \frac{54}{37} j . \end{matrix}$

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Sometimes it is useful to decompose vectors—that is, to break a vector apart into a sum. This process is called the resolution of a vector into components . Projections allow us to identify two orthogonal vectors having a desired sum. For example, let $v = ⟨ 6, −4 ⟩$ and let $u = ⟨ 3, 1 ⟩ .$ We want to decompose the vector v into orthogonal components such that one of the component vectors has the same direction as u .

We first find the component that has the same direction as u by projecting v onto u . Let $p = {proj}_{u} v .$ Then, we have

\begin{matrix} p & = \frac{u \cdot v}{{‖ u ‖}^{2}} u \\ = \frac{18 - 4}{9 + 1} u \\ = \frac{7}{5} u = \frac{7}{5} ⟨ 3, 1 ⟩ = ⟨ \frac{21}{5}, \frac{7}{5} ⟩ . \end{matrix}

Now consider the vector $q = v - p .$ We have

\begin{matrix} q & = v - p \\ = ⟨ 6, −4 ⟩ - ⟨ \frac{21}{5}, \frac{7}{5} ⟩ \\ = ⟨ \frac{9}{5}, - \frac{27}{5} ⟩ . \end{matrix}

Clearly, by the way we defined q , we have $v = q + p,$ and

Questions & Answers

calculate molarity of NaOH solution when 25.0ml of NaOH titrated with 27.2ml of 0.2m H2SO4

Gasin Reply

what's Thermochemistry

rhoda Reply

the study of the heat energy which is associated with chemical reactions

Kaddija

How was CH4 and o2 was able to produce (Co2)and (H2o

Edafe Reply

explain please

Victory

First twenty elements with their valences

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what is chemistry

asue Reply

what is atom

asue

what is the best way to define periodic table for jamb

Damilola Reply

what is the change of matter from one state to another

Elijah Reply

what is isolation of organic compounds

IKyernum Reply

what is atomic radius

ThankGod Reply

Read Chapter 6, section 5

Kareem

Atomic radius is the radius of the atom and is also called the orbital radius

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atomic radius is the distance between the nucleus of an atom and its valence shell

Amos

Read Chapter 6, section 5

paulino

Bohr's model of the theory atom

Ayom Reply

is there a question?

when a gas is compressed why it becomes hot?

ATOMIC

It has no oxygen then

Goldyei

read the chapter on thermochemistry...the sections on "PV" work and the First Law of Thermodynamics should help..

Which element react with water

Mukthar Reply

Mgo

Ibeh

an increase in the pressure of a gas results in the decrease of its

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definition of the periodic table

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What is the lkenes

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what were atoms composed of?

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Source: OpenStax, Calculus volume 3. OpenStax CNX. Feb 05, 2016 Download for free at http://legacy.cnx.org/content/col11966/1.2

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