Express a Vector in Component Form

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Pre-Calculus › Express a Vector in Component Form

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Find , then find its magnitude. and are both vectors.

CORRECT

$\sqrt{38}$

$\sqrt{41}$

$\sqrt{133}$

Explanation

In vector addition, you simply add each component of the vectors to each other.

x component: .

y component: .

z component: .

The new vector is

To find the magnitude we use the formula,

$|a+b|=\sqrt{0^2+3^2+4^2}$

$|a+b|=\sqrt{9+16}$

$|a+b|=\sqrt{25}=5$

Thus its magnitude is 5.

Find the component form of the vector with

initial point

and

terminal point .

CORRECT

Explanation

To find the vector in component form given the initial and terminal points, simply subtract the initial point from the terminal point.

Write this vector in component form: Vector 2

$\small <-6.49, 2.62>$

CORRECT

$\small <6.49, 2.62>$

$\small <2.62, 6.49>$

$\small <-2.62, 6.49>$

$\small <6.49, -2.62>$

Explanation

In order to find the horizontal component, set up an equation involving cosine with 7 as the hypotenuse, since the side in the implied triangle that represents the horizontal component is adjacent to the 22-degree angle:

$\small cos(22)=\frac{x}{7}$ First, find the cosine of 22, then multiply by 7

$\small 6.49 \approx x$

To find the vertical component, set up an equation involving sine, since the side in the implied triangle that represents the vertical component is opposite the 22-degree angle:

$\small sin(22)=\frac{y}{7}$ First, find the sine of 22, then multiply by 7

$\small 2.62 \approx x$

We are almost done, but we need to make a small adjustment. The picture indicates that the vector points up and to the left, so the horizontal component, 6.49, should be negative:

$\small \small <-6.49, 2.62>$