Vectors in 2 and 3 dimensions Definition: A scalar has magnitude A vector has magnitude and...
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Transcript of Vectors in 2 and 3 dimensions Definition: A scalar has magnitude A vector has magnitude and...
![Page 1: Vectors in 2 and 3 dimensions Definition: A scalar has magnitude A vector has magnitude and direction.](https://reader036.fdocuments.us/reader036/viewer/2022081414/55142fc5550346ec488b5ef9/html5/thumbnails/1.jpg)
Vectors in 2 and 3 dimensions
Definition:
A scalar has magnitude
A vector has magnitude and direction
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Representing vectors
A
B
AB =63
6
3a
a = = 6i + 3j
i =10
⎛
⎝⎜
⎞
⎠⎟ j =
01
⎛
⎝⎜
⎞
⎠⎟Unit Vectors
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The magnitude of a vector
A
B
6
3a
ABu ruu
= 62 + 32
= 45
=3 5
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3 Dimensions
• In 3 dimensions, we consider the x, y and z axis.
• As unit vectors, we use i, j, k
• E.g. 3
−25
⎛
⎝
⎜⎜⎜
⎞
⎠
⎟⎟⎟=3i −2 j +5k
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Magnitude of a 3D vector
• The formula for working out the magnitude (length) of a 3D vector is very similar to that for a 2D vector:
a
b
c
= a2 +b2 +c2
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Finding Unit Vectors• A unit vector in the direction of v can be found as:
• A vector of length a in the direction of a vector, v, can be found as:
1
v• v
Finding Vectors of Given Lengths
a
v• v
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Finding Unit Vectors
• Example: Find the unit vector in the direction of 5i -2j + 4k
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Finding Unit Vectors
• Example: Find the vector of length in the direction of 5i -2j + 4k
5
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Equal vectorsTwo vectors are equal if they have the same magnitude and direction.
All of the following vectors are equal:
They are the same length and parallel.
a
bc
d
ef
g
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The negative of a vector
Here is the vector AB =52
a
A
B
Suppose the arrow went in the opposite direction:
A
B
We can describe this vector as:
BA –a–5–2
or
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Multiplying vectors by scalars
The vector 2a has the same direction but is twice as long.
a =32
2a =64
a 2a
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Adding vectors
If a =53
and b =3
–2
Find a + b
We can represent this addition in the following diagram:
a b
a + b
a + b =81
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Subtracting vectors
and b =–23
a =44
a b
a – b
a – b =61
–b a –b
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Subtracting vectors
and b =–23
a =44
a
a – 2b
a – 2b =44
–2bb
-23
44
4-6
8-2
- 2 = + =
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O
KJ
IHGF
EDC
L M
b
a
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Vectors on a tangramA tangram is an ancient Chinese puzzle in which a square ABCD is divided as follows:
A B
CD
F
E
G
H
I
J
Suppose,
AE = a and AF = b
Write the following in terms of a and b.
FC =
b
a
3b
HJ = –a
IG = a – 2b
CB = 2a – 4b
HI = b – a
HD = 2b – 3a
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b
O
C
B
C is ¼ of the way along OB
OC =
BC =
1
4b
3
4b
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s
OC
B
C divides the line OB in the ratio 1:5
OC =
BC =
1
6b
5
6b
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a
b
O A
C
B
C divides the line AB in the ratio 1:2
AB = -a + b
AC = 1/3 (–a + b)
OC = 2 1
3 3a b
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Additional points to note:
• A position vector is one that starts from the origin, such as
• If one vector is a multiple of the other, the vectors are parallel
OAu ruu