The Vector Product | DP IB Maths: AI HL Revision Notes 2021

The Vector ('Cross') Product

What is the vector (cross) product?

The vector product (also known as the cross product) is a form in which two vectors can be combined together
The vector product between two vectors v and w is denoted v × w
The result of taking the vector product of two vectors is a vector
The vector product is a vector in a plane that is perpendicular to the two vectors from which it was calculated

This could be in either direction, depending on the angle between the two vectors
The right-hand rule helps you see which direction the vector product goes in

By pointing your index finger and your middle finger in the direction of the two vectors your thumb will automatically go in the direction of the vector product

How do I find the vector (cross) product?

There are two methods for calculating the vector product
The vector product of the two vectors v and w can be written in component form as follows:
- $v \times w = (\begin{matrix} v_{2} w_{3} - v_{3} w_{2} \\ v_{3} w_{1} - v_{1} w_{3} \\ v_{1} w_{2} - v_{2} w_{1} \end{matrix})$
- Where $v = (\binom{v_{1}}{\begin{matrix} v_{2} \\ v_{3} \end{matrix}})$ and $w = (\binom{w_{1}}{\begin{matrix} w_{2} \\ w_{3} \end{matrix}})$
- This is given in the formula booklet
The vector product can also be found in terms of its magnitude and direction
The magnitude of the vector product is equal to the product of the magnitudes of the two vectors and the sine of the angle between them
- $| v \times w | = |v| |w| \sin θ$
- Where θ is the angle between v and w
  - The two vectors v and w are joined at the start and pointing away from each other
- This is given in the formula booklet
The direction of the vector product is perpendicular to both v and w

What properties of the vector product do I need to know?

If two vectors are parallel then the vector product is zero
- This is because sin 0° = sin 180° = 0
If $v \times w = 0$ then v and w are parallel if they are non-zero
If two vectors, v and w, are perpendicular then the magnitude of the vector product is equal to the product of the magnitudes of the vectors
- $| v \times w | = | w | | v |$
- This is because sin 90° = 1

Examiner Tip

The formulae for the vector product are given in the formula booklet, make sure you use them as this is an easy formula to get wrong
The properties of the vector product are not given in the formula booklet, however they are important and it is likely that you will need to recall them in your exam so be sure to commit them to memory

Worked example

Calculate the magnitude of the vector product between the two vectors $v = (\binom{2}{\begin{matrix} 0 \\ - 5 \end{matrix}})$ and $w = 3 i - 2 j - k$ using

the formula

v \times w = (\begin{matrix} v_{2} w_{3} - v_{3} w_{2} \\ v_{3} w_{1} - v_{1} w_{3} \\ v_{1} w_{2} - v_{2} w_{1} \end{matrix})

3-10-4-ib-aa-hl-vector-product-we-solution-1a

ii)

the formula , given that the angle between them is 1 radian.

3-10-4-ib-aa-hl-vector-product-we-solution-1b

Areas using Vector Product

How do I use the vector product to find the area of a parallelogram?

The area of the parallelogram with two adjacent sides formed by the vectors v and w is equal to the magnitude of the vector product of two vectors v and w

$A = |v \times w|$ where v and w form two adjacent sides of the parallelogram

This is given in the formula booklet

How do I use the vector product to find the area of a triangle?

The area of the triangle with two sides formed by the vectors v and w is equal to half of the magnitude of the vector product of two vectors v and w

$A = \frac{1}{2} |v \times w|$ where v and w form two sides of the triangle

This is not given in the formula booklet

Examiner Tip

The formula for the area of the parallelogram is given in the formula booklet but the formula for a triangle is not
- Remember that the area of a triangle is half the area of a parallelogram

Worked example

Find the area of the triangle enclosed by the coordinates (1, 0, 5), (3, -1, 2) and (2, 0, -1).

3-10-4-ib-aa-hl-area-we-solution

The Vector Product (DP IB Maths: AI HL)

Revision Note

The Vector ('Cross') Product

What is the vector (cross) product?

How do I find the vector (cross) product?

What properties of the vector product do I need to know?

Examiner Tip

Worked example

Areas using Vector Product

How do I use the vector product to find the area of a parallelogram?

How do I use the vector product to find the area of a triangle?

Examiner Tip

Worked example

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Author: Amber