Cambridge International AS and A Level Mathematics Pure Mathematics 1

The

(^) angle
(^) between
(^) two
(^) vectors
P1^
8
Further points concerning the scalar product
●●You will notice that the scalar product of two vectors is an ordinary
number. It has size but no direction and so is a scalar, rather than a
vector. It is for this reason that it is called the scalar product. There is
another way of multiplying vectors that gives a vector as the answer; it is
called the vector product. This is beyond the scope of this book.
●●The scalar product is calculated in the same way for three-dimensional
vectors. For example:
2
3
4

5

6

7

25 3 647 56

































. = ×+× +× =.

    In general

a

a

a

b

b

b

ab ab ab

1

2

3

1

2

3

11 22 33

































. =+ +

●●The scalar product of two vectors is commutative. It has the same value

whichever of them is on the left-hand side or right-hand side. Thus a. b = b. a,

as in the following example.

2

3

6

7 263 733















. =× +× =

6

7

2

3

 62 73 33















. = ×+× =.

●^ How^ would^ you^ prove^ this^ result?

The angle between two vectors

The angle θ between the vectors a = a 1 i + a 2 j and b = b 1 i + b 2 j in two dimensions

is given by

cosθ=

+

+× +

=

ab ab

aa bb

11 22

(^21222122)
aa..bb
aabb
where a. b is the scalar product of a and b. This result was proved by using the
cosine rule on page 271.