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6/4/13 Obj: SWBAT plot polar coordinates
Bell Ringer: Plot the point (4, 4π/3)HW: Polar Coordinates WS Announcements:• Turn in missing Assignments (Excused)• Take missing Quizzes• Last day to bring books back is day of the Final• Turn in 3 missing assignments partial credit; by Friday• Check grades to look for missing assignments
(r, )
You are familiar with plotting with a rectangular coordinate system.
We are going to look at a new coordinate system called the polar coordinate system.
The center of the graph is called the pole.
Angles are measured from the positive x axis.
Points are represented by a radius and an angle
(r, )radius angle
To plot the point
4,5
First find the angle
Then move out along the terminal side 5
A negative angle would be measured clockwise like usual.
To plot a point with a negative radius, find the terminal side of the angle but then measure from the pole in the negative direction of the terminal side.
43,3
32,4
Let's plot the following points:
2,7
2,7
25,7
23,7
Notice unlike in the rectangular coordinate system, there are many ways to list the same point.
Let's take a point in the rectangular coordinate system and convert it to the polar coordinate system.
(3, 4)
r
Based on the trig you know can you see how to find r and ?4
3r = 5
222 43 r
34tan
93.034tan 1
We'll find in radians
(5, 0.93)polar coordinates are:
Let's generalize this to find formulas for converting from rectangular to polar coordinates.
(x, y)
r y
x
222 ryx
xy
tan
22 yxr
xy1tan
You need to consider the quadrant in which P lies in order to find the value of .
Now let's go the other way, from polar to rectangular coordinates.
Based on the trig you know can you see how to find x and y?
44cos x
rectangular coordinates are:
4,4
4 yx4
22224
x
44sin y
22224
y
22,
22
Let's generalize the conversion from polar to rectangular coordinates.
rx
cos ,r
r yx
ry
sin
cosrx
sinry
330315
300
270240
225
210
180
150
135
120
0
9060
30
45
Polar coordinates can also be given with the angle in degrees.
(8, 210°)
(6, -120°)
(-5, 300°)
(-3, 540°)
12
To find the rectangular coordinates for a point given its polar coordinates, we can use the trig functions.
4,3
Example
13
14
Likewise, we can find the polar coordinates if we are given the rectangular coordinates using the trig functions. Think about the Pythagorean Theorem.
Example:
Find the polar coordinates (r, θ) for the point for which the rectangular coordinates are (5, 4). Express r and θ (in radians) to three sig digits.
(5, 4)
15
Conversion from Rectangular Coordinates to Polar CoordinatesIf P is a point with rectangular coordinates (x, y), the polar coordinates
(r, ) of P are given by
2 2 1tanrefyr x yx
P
You need to consider the quadrant in which P lies in order to find the value of .
16
) 2, 2a
Find polar coordinates of a point whose rectangular coordinates are given. Give exact answers with θ in degrees.
17
) 1, 3b
Find polar coordinates of a point whose rectangular coordinates are given. Give exact answers with θ in degrees.
18
The TI-84 calculator has handy conversion features built-in. Check out the ANGLE menu.
5: Returns value of r given rectangular coordinates (x, y)
6: Returns value of given rectangular coordinates (x, y)
7: Returns value of x given polar coordinates (r, )
8: Returns value of y given polar coordinates (r, )
Check the MODE for the appropriate setting for angle measure (degrees vs. radians).
922 yx
Convert the rectangular coordinate system equation to a polar coordinate system equation.
22 yxr 3r
r must be 3 but there is no restriction on so consider all values.
Here each r unit is 1/2 and we went out 3
and did all angles.
? and torelated was
how s,conversion From22 yxr
Before we do the conversion let's look at the graph.
Convert the rectangular coordinate system equation to a polar coordinate system equation. yx 42
cosrx
sinry sin4cos 2 rr
sin4cos22 rr
substitute in for x and y
We wouldn't recognize what this equation looked like in polar coordinates but looking at the rectangular equation we'd know it was a parabola.
What are the polar conversions we found for x and y?
21
Write Polar Equation in Rectangular Form
Given r = 2 sin θ– Write as rectangular
equationUse definitions
– And identities
– Graph the given equation for clues
1
2 2 2
cossin
tan
x ry ryxr x y
22
Write Polar Equation in Rectangular Form
Given r = 2 sin θ
– We know
– Thus
– And
2
2 2
sin2
2
2
r yr
r y
x y y
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Write Rectangular Equation in Polar Form
Consider 2x – 3y = 6
– As before, usedefinitions
1
2 2 2
cossin
tan
x ry ryxr x y
2 cos 3 sin 62cos 3sin 6
62cos 3sin
r rr
r
24
Polar Coordinates
How do we graph or use a graph to describe loops and curves?
Background The use of polar coordinates allows for the analysis of families of curves difficult to handle through rectangular coordinates (x,y). If a curve is a rectangular coordinate graph of a function, it cannot have any loops since, for a given value there can be at most one corresponding value. However, using polar coordinates, curves with loops can appear as graphs of functions.
http://www.xpmath.com/careers/topicsresult.php?subjectID=4&topicID=18
25
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Polar Coordinates (Sect 21.10)
A point P in the polar coordinate system is represented by an ordered pair .
• If , then r is the distance of the point from the pole.
• is an angle (in degrees or radians) formed by the polar axis and a ray from the pole through the point.
,r
0r
27
ExamplePlot the point P with polar coordinates 2, .
4
28
Polar Coordinates
If , then the point is located units on the ray that extends in the opposite direction of the terminal side of .
For , r = |r| and ϴ = ϴ + 180
Ex. (-7, 70⁰) = (7, 250)
0r r
0r
29
ExamplePlot the point with polar coordinates
4,3
30
5) 3,3
a
) 2,4
b
Plotting Points Using Polar Coordinates
31
) 3,0c ) 5,2
d
Plotting Points Using Polar Coordinates
32
A) B)
C) D)
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• Using polar coordinates, the same point can be described by many different representations. Which of the following do(does) not describe the point (8,60°) ?
(8,−60°) (8,-300°) (8,420°) (-8,-120°)
• Using polar coordinates, write 3 more representations of the point (5,150°)
34
Graphing in polar coordinates• Hit the MODE key. • Arrow down to where it says Func
(short for "function" which is a bit misleading since they are all functions). • Now, use the right arrow to choose Pol. • Hit ENTER. (*It's easy to forget this step, but it's crucial: until you hit ENTER you have not actually
selected Pol, even though it looks like you have!) The calculator is now in polar coordinates mode. To see what that means, try this. Hit the Y= key. Note that, instead of Y1=, Y2=, and so on, you now have r1= and so on. In the r1= slot, type 5-5sin( Now hit the familiar X,T,q,n key, and you get an unfamiliar result. In polar coordinates mode, this
key gives you a ϴ instead of an X. Finally, close off the parentheses and hit GRAPH. If you did everything right, you just asked the calculator to graph the polar equation r=5-5sin(ϴ). The result looks a bit like a valentine. The WINDOW options are a little different in this mode too. You can still specify X and Y ranges, which define the viewing screen. But you can also specify the ϴvalues that the calculator begins and ends with; for instance, you may limit the graph to 0< ϴ <π/2. This would not change the viewing window, but it would only draw part of the graph.
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End here 6/3
36
End of Section
37
Definitions of Trigonometric Functions of Any Angle
Let be an angle in standard position with (x, y) a point on the terminal side of and
Definitions of Trig Functions of Any Angle(Sect 8.1)
2 2r x y
sin csc
cos sec
tan cot
y rr yx rr xy xx y
y
x
(x, y)
r
38
Since the radius is always positive (r > 0), the signs of the trig functions are dependent upon the signs of x and y. Therefore, we can determine the sign of the functions by knowing the quadrant in which the terminal side of the angle lies.
The Signs of the Trig Functions
39
The Signs of the Trig Functions
40
Where each trig function is POSITIVE:
A
CT
S
“All Students Take Calculus”
Translation:
A = All 3 functions are positive in Quad 1S= Sine function is positive in Quad 2T= Tangent function is positive in Quad 3C= Cosine function is positive in Quad 4
*In Quad 2, sine is positive, but cosine and tangent are negative; in Quad 3, tangent is positive, but sine and cosine are negative; in Quad 4, cosine is positive but sine and tangent are negative.
**Reciprocal functions have the same sign. So cosecant is positive wherever sine is positive, secant is positive wherever cosine is positive, and cotangent is positive wherever tangent is positive.
41
Determine if the following functions are positive or negative:
Example
sin 210°
cos 320°
cot (-135°)
csc 500°
tan 315°
42
ExamplesFor the given values, determine the quadrant(s) in which
the terminal side of θ lies.
1) sin 0.3614 2) tan 2.553 3) cos 0.866
43
ExamplesDetermine the quadrant in which the terminal side of θ lies,
subject to both given conditions.
1) sin 0, cos 0 2) sec 0, cot 0
44
ExamplesFind the exact value of the six trigonometric functions of θ if
the terminal side of θ passes through point (3, -5).
45
The values of the trig functions for non-acute angles (Quads II, III, IV) can be found using the values of the corresponding reference angles.
Reference Angles (Sect 8.2)
Definition of Reference AngleLet be an angle in standard position. Its reference angle is the acute angle formed by the terminal side of and the horizontal axis.
ref
46
Example
Find the reference angle for 225
Solution y
x
ref
By sketching in standard position, we see that it is a 3rd quadrant angle. To find , you would subtract 180° from 225 °.
ref
225 180
45ref
ref
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So what’s so great about reference angles?
Well…to find the value of the trig function of any non-acute angle, we just need to find the trig function of the reference angle and then determine whether it is positive or negative, depending upon the quadrant in which the angle lies.
For example,
1sin 225 (sin 45 )2
45° is the ref angleIn Quad 3, sin is negative
48
Example
Give the exact value of the trig function (without using a calculator).
cos 150
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Examples (Text p 239 #6 & 8)Express the given trigonometric function in terms of the same
function of a positive acute angle.
6) tan 91 , sec 345 8) cos 190 , cot 290
50
Now, of course you can simply use the calculator to find the value of the trig function of any angle and it will correctly return the answer with the correct sign.
Remember: Make sure the Mode setting is set to the correct form of the
angle: Radian or Degree
To find the trig functions of the reciprocal functions (csc, sec, and cot), use the button or enter [original function] .
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Example
Evaluate . Round appropriately.
Set Mode to Degree Enter: OR
cot 324.0
: cot 324.0 1.38ANS
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HOWEVER, it is very important to know how to use the reference angle when we are using the inverse trig functions on the calculator to find the angle because the calculator may not directly give you the angle you want.
r-5
y
x
(-12, -5)
-12
Example: Find the value of to the nearest 0.01°
53
ExamplesFind for 0 360
1) sin 0.418 2) tan 1.058
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ExamplesFind for 0 360
3) cos 0.85 4) cot 0.012, sin 0
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BONUS PROBLEMFind for 0 360 without using a calculator.
2sin 1 0
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SUPER DUPER BONUS PROBLEMFind for 0 360 without using a calculator.
24(sin ) 9 6
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Trig functions of Quadrantal Angles
To find the sine, cosine, tangent, etc. of angles whose terminal side falls on one of the axes , we will use the circle.
(..., 180 , 90 , 0 , 90 , 180 , 270 , 360 ,...)
(0, 1) 90
(1, 0)(-1, 0)
(0, -1)
0
270
180
Unit Circle: Center (0, 0) radius = 1 x2 + y2 = 1
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Now using the definitions of the trig functions with r = 1, we have:
sin csc1
cos sec1
tan cot
1
1
yy
x
y y rr y
xy xx
x
y
x rr x
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Find the value of the six trig functions for
Example90
(1, 0)
(0, 1)
(-1, 0)
(0, -1)
0
270
90
180
sin 901
cos 901
tan 90
1csc 90
1sec 90
cot 90
y yrx xryxry yrx xxy
60
Find the value of the six trig functions for
Example
0
sin 0
cos 0
tan 0
1csc 0
1sec 0
cot 0
y
x
yx
y
xxy
61
Find the value of the six trig functions for
Example
540
sin 540
cos 540
tan 540
1csc 540
1sec 540
cot 540
y
x
yx
y
xxy
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In general, for in radians,
A second way to measure angles is in radians.
Radian Measure (Sect 8.3)
sr
Definition of Radian:One radian is the measure of a central angle that intercepts
arc s equal in length to the radius r of the circle.
63
Radian Measure
2 radians corresponds to 360radians corresponds to 180
radians corresponds to 902
2 6.283.14
1.572
64
Radian Measure
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Conversions Between Degrees and Radians
1. To convert degrees to radians, multiply degrees by
2. To convert radians to degrees, multiply radians by
180
180
Example
Convert from degrees to radians: 210º
210
66
Conversions Between Degrees and Radians
Example
a) Convert from radians to degrees:
b) Convert from radians to degrees: 3.8
34
34
3.8
67
Conversions Between Degrees and Radians
c) Convert from degrees to radians (exact):
d) Convert from radians to degrees: 136
136
675
675
68
Conversions Between Degrees and Radians
Again!
e) Convert from degrees to radians (to 3 decimal places):
f) Convert from radians to degrees (to nearest tenth): 1 rad
5252
1
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ExamplesFind to 4 sig digits for 0 2
sin 0.9540