Transcript a. r
9.5
Polar Coordinates
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What You Should Learn
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•
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Plot points and find multiple representations of
points in the polar coordinate system
Convert points from rectangular to polar form
and vice versa
Convert equations from rectangular to polar
form and vice versa
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Introduction
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Introduction
Representation of graphs of equations as collections of
points (x, y), where x and y represent the directed
distances from the coordinate axes to the point (x, y) is
called rectangular coordinate system.
In this section, you will study a second coordinate system
called the polar coordinate system.
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Introduction
To form the polar coordinate system in the plane, fix a point
O, called the pole (or origin), and construct from O an
initial ray called the polar axis, as shown in Figure 9.59.
Figure 9.59
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Introduction
Then each point in the plane can be assigned polar
coordinates (r, ) as follows.
1. r = directed distance from O to P
2. = directed angle, counterclockwise from the polar axis
to segment OP
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Example 1 – Plotting Points in the Polar Coordinate System
a. The point
lies two units from the pole on the
terminal side of the angle
as shown in Figure 9.60.
Figure 9.60
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Example 1 – Plotting Points in the Polar Coordinate System
b. The point
lies three units from the pole on
the terminal side of the angle
as shown in
Figure 9.61.
Figure 9.61
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Example 1 – Plotting Points in the Polar Coordinate System
c. The point
coincides with the point
,
as shown in Figure 9.62.
Figure 9.62
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Introduction
In rectangular coordinates, each point (x, y) has a unique
representation. This is not true for polar coordinates. For
instance, the coordinates
(r, )
and
(r, + 2)
represent the same point, as illustrated in Example 1.
Another way to obtain multiple representations of a point is
to use negative values for r. Because r is a directed
distance, the coordinates
(r, )
and
(–r, + )
represent the same point.
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Introduction
In general, the point (r, ) can be represented as
(r, ) = (r, 2n)
or
(r, ) = (–r, (2n + 1))
where n is any integer.
Moreover, the pole is represented by
(0, )
where is any angle.
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Example 2 – Multiple Representations of Points
Plot the point
and find three additional polar representations of this point,
using
– 2 < < 2.
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Example 2 – Solution
The point is shown in Figure 9.63.
Figure 9.63
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Example 2 – Solution
cont’d
Three other representations are as follows.
Add 2 to
Replace r by –r, subtract from
Replace r by –r add to
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Coordinate Conversion
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Coordinate Conversion
To establish the relationship between polar and rectangular
coordinates, let the polar axis coincide with the positive
x-axis and the pole with the origin, as shown in Figure 9.64.
Figure 9.64
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Coordinate Conversion
Because (x, y) lies on a circle of radius r, it follows that
r2 = x2 + y2. Moreover, for r > 0, the definitions of the
trigonometric functions imply that
and
You can show that the same relationships hold for r < 0.
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Example 3 – Polar-to-Rectangular Conversion
Convert the point (2, ) to rectangular coordinates.
Solution:
For the point (r, ) = (2, ), you have the following.
x = r cos = 2 cos = –2
x = r sin = 2 sin = 0
The rectangular coordinates are
(x, y) = (–2, 0).
(See Figure 9.65.)
Figure 9.65
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Equation Conversion
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Equation Conversion
Point conversion from the polar to the rectangular system is
straightforward, whereas point conversion from the
rectangular to the polar system is more involved. For
equations, the opposite is true.
To convert a rectangular equation to polar form, you simply
replace x by r cos and y by r sin . For instance, the
rectangular equation y = x2 can be written in polar form as
follows.
Rectangular equation
y = x2
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Equation Conversion
r sin = (r cos )2
r = sec tan
Polar equation
Simplest form
On the other hand, converting a polar equation to
rectangular form requires considerable ingenuity.
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Example 5 – Converting Polar Equations to Rectangular Form
Describe the graph of each polar equation and find the
corresponding rectangular equation.
a. r = 2
b.
c. r = sec
Solution:
a. The graph of the polar equation
r = 2 consists of all points that
are two units from the pole. In
other words, this graph is a
circle centered at the origin
with a radius of 2, as shown
in Figure 9.67.
Figure 9.67
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Example 5 – Solution
cont’d
You can confirm this by converting to rectangular form,
using the relationship r2 = x2 + y2.
r2 = 22
b. The graph of the polar equation
consists of all points on the line that
makes an angle of 3 with the
positive x-axis, as shown in
Figure 9.68.
Figure 9.68
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Example 5 – Solution
cont’d
To convert to rectangular form, you make use of the
relationship tan = yx.
c. The graph of the polar equation
r = sec
is not evident by simple inspection, so you convert to
rectangular form by using the relationship r cos = x.
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Example 5 – Solution
cont’d
Now you can see that the graph is a vertical line, as
shown in Figure 9.69.
Figure 9.69
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