vectors. a line segment to which a direction has been assigned is called a directed line segment....
TRANSCRIPT
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Vectors
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A line segment to which a direction has been assigned is called a directed line segment. The figure below shows a directed line segment form P to Q. We call P the initial point and Q the terminal point. We denote this directed line segment by PQ.
The magnitude of the directed line segment PQ is its length. We denote this by || PQ ||. Thus, || PQ || is the distance from point P to point Q. Because distance is nonnegative, vectors do not have negative magnitudes.
Geometrically, a vector is a directed line segment. Vectors are often denoted by a boldface letter, such as v. If a vector v has the same magnitude and the same direction as the directed line segment PQ, we write
v = PQ.
P
Q
Initial pointTerminal point
Directed Line Segments and Geometric Vectors
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Vector Multiplication
If k is a real number and v a vector, the vector kv is called a scalar multiple of the vector v. The magnitude and direction of kv are given as follows:
The vector kv has a magnitude of |k| ||v||. We describe this as the absolute value of k times the magnitude of vector v.
The vector kv has a direction that is: the same as the direction of v if k > 0, and opposite the direction of v if k < 0
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A geometric method for adding two vectors is shown below. The sum of u + v is called the resultant vector. Here is how we find this vector.
1. Position u and v so the terminal point of u extends from the initial point of v.
2. The resultant vector, u + v, extends from the initial point of u to the terminal point of v.
Initial point of u
u + vv
u
Resultant vector
Terminal point of v
The Geometric Method for Adding Two Vectors
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The difference of two vectors, v – u, is defined as v – u = v + (-u), where –u is the scalar multiplication of u and –1: -1u. The difference v – u is shown below geometrically.
v
u-u
-u
v – u
The Geometric Method for the Difference of Two Vectors
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1
1
i
j
Ox
y
The i and j Unit Vectors
• Vector i is the unit vector whose direction is along the positive x-axis. Vector j is the unit vector whose direction is along the positive y-axis.
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Representing Vectors in Rectangular Coordinates
Vector v, from (0, 0) to (a, b), is represented asv = ai + bj.The real numbers a and b are called the scalar
components of v. Note that a is the horizontal component of v, and b is the vertical component of v.The vector sum ai + bj is called a linear combination
of the vectors i and j. The magnitude of v = ai + bj is given by
v a2 b2
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Sketch the vector v = -3i + 4j and find its magnitude.Solution For the given vector v = -3i + 4j, a = -3 and b = 4. The vector, shown below, has the origin, (0, 0), for its initial point and (a, b) = (-3, 4) for its terminal point. We sketch the vector by drawing an arrow from (0, 0) to (-3, 4). We determine the magnitude of the vector by using the distance formula. Thus, the magnitude is
-5 -4 -3 -2 -1 1 2 3 4 5
5
4
3
2
1
-1-2
-3
-4-5
Initial point
Terminal point
v = -3i + 4j
v a2 b2
( 3)2 42
9 16
25 5
Text Example
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Two vectors are equal if they have the same magnitude and direction.
To show this:
A) Show they have the same magnitude
B) Show they have the same slope.
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Representing Vectors in Rectangular Coordinates
• Vector v with initial point P1 = (x1, y1) and terminal point P2 = (x2, y2) is equal to the position vector
• v = (x2 – x1)i + (y2 – y1)j.
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Adding and Subtracting Vectors in Terms of i and j
• If v = a1i + b1j and w = a2i + b2j, then • v + w = (a1 + a2)i + (b1 + b2)j• v – w = (a1 – a2)i + (b1 – b2)j
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If v = 5i + 4j and w = 6i – 9j, find: a. v + w b. v – w.
Solution
• v + w = (5i + 4j) + (6i – 9j) These are the given vectors.= (5 + 6)i + [4 + (-9)]j Add the horizontal components. Add
the vertical components.= 11i – 5j Simplify.
• v + w = (5i + 4j) – (6i – 9j) These are the given vectors.= (5 – 6)i + [4 – (-9)]j Subtract the horizontal components.
Subtract the vertical components.= -i + 13j Simplify.
Text Example
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Scalar Multiplication with a Vector in Terms of i and j
• If v = ai + bj and k is a real number, then the scalar multiplication of the vector v and the scalar k is
• kv = (ka)i + (kb)j.
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Example
ji
jiv
ji
jiv
96
)3*3()2*3(3
1510
)3*5()2*5(5
• If v=2i-3j, find 5v and -3v
Solution:
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The Zero Vector
• The vector whose magnitude is 0 is called the zero vector, 0. The zero vector is assigned no direction. It can be expressed in terms of i and j using
• 0 = 0i + 0j.
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Properties of Vector Addition and Scalar Multiplication
If u, v, and w are vectors, then the following properties are true.
Vector Addition Properties 1. u + v = v + u Commutative Property 2. (u + v) + w = v + (u + w) Associative Property 3. u + 0 = 0 + u = u Additive Identity 4. u + (-u) = (-u) + u = 0 Additive Inverse
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Properties of Vector Addition and Scalar Multiplication
If u, v, and w are vectors, and c and d are scalars, then the following properties are true.
Scalar Multiplication Properties 1. (cd)u = c(du) Associative Property 2. c(u + v) = cv + cu Distributive Property 3. (c + d)u = cu + du Distributive Property 4. 1u = u Multiplicative Identity 5. 0u = 0 Multiplication Property 6. ||cv|| = |c| ||v||
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Finding the Unit Vector that Has the Same Direction as a Given Nonzero Vector v
• For any nonzero vector v, the vector
• is a unit vector that has the same direction as v. To find this vector, divide v by its magnitude.
v
v
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Example
jiv
v
v
65
7
65
4
654916
)7(4 22
• Find a unit vector in the same direction as v=4i-7j
Solution:
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Writing a vector in terms of its Magnitude and Direction
Let v be a nonzero vector. If θ is the direction angle measured from the positive x-axis to v, then the vector can be expressed in terms of its magnitude and direction angle as:
jiv sincos vv
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• The wind is blowing at 20 miles per hour in the direction N30W. Express its velocity as a vector v in terms of i and j
jiv sincos vv
jiv 120sin20120cos20
jiv
2
320
2
120
jiv 31010
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Applications (Resultant Force)
• A vector that represents a pull or push of some type is called a force vector.
Resulatant Force = F1 + F2
If resultant force is zero vector, then the object is not moving!
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Two forces F1 and F2 of magnitude 10 and 30 pounds respectively, act on an object. The direction of F1 is N20E and the direction of F2 is N65E. Find the magnitude and the direction of the resultant force. ji sincos 111 FFF
ji 70sin1070cos101 F
ji 40.942.31 F
ji sincos 222 FFF
ji 25sin3025cos302 F
ji 68.1219.272 F
ji 08.2261.3021 FF
74.3722 baF
74.37
61.30cos
F
a
8.35
The two given forces are equivalent to a single force of approximately 37.74 pounds with a direction angle of 35.8 degrees.