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Transcript 
5.3 Right-Triangle-Based Definitions of
Trigonometric Functions
For any acute angle A in standard position,
1
Right-Triangle-Based Definitions of
Trigonometric Functions
For any acute angle A in standard position,
2
Right-Triangle-Based Definitions of
Trigonometric Functions
For any acute angle A in standard position,
3
Example 1
FINDING TRIGONOMETRIC FUNCTION
VALUES OF AN ACUTE ANGLE
Find the sine, cosine,
and tangent values for
angles A and B.
4
Example 1
FINDING TRIGONOMETRIC FUNCTION
VALUES OF AN ACUTE ANGLE (cont.)
Find the sine, cosine,
and tangent values for
angles A and B.
5
Cofunction Identities
For any acute angle A in standard position,
sin A = cos(90  A)
csc A = sec(90  A)
tan A = cot(90  A)
cos A = sin(90  A)
sec A = csc(90  A)
cot A = tan(90  A)
6
Example 2
WRITING FUNCTIONS IN TERMS OF
COFUNCTIONS
Write each function in terms of its cofunction.
(a) cos 52°=
(b) tan 71°=
(c) sec 24°=
7
30°- 60°- 90° Triangles
Bisect one angle of an equilateral
to create two 30°-60°-90° triangles.
Copyright © 2009 Pearson Addison-Wesley
5.3-8
30°- 60°- 90° Triangles
Use the Pythagorean theorem to solve for x.
Copyright © 2009 Pearson Addison-Wesley
5.3-9
Example 3
FINDING TRIGONOMETRIC FUNCTION
VALUES FOR 60°
Find the six trigonometric function values for a 60°
angle.
10
Example 3
FINDING TRIGONOMETRIC FUNCTION
VALUES FOR 60° (continued)
Find the six trigonometric function values for a 60°
angle.
11
45°- 45° Right Triangles
Use the Pythagorean theorem to
solve for r.
Copyright © 2009 Pearson Addison-Wesley
5.3-12
45°- 45° Right Triangles
Copyright © 2009 Pearson Addison-Wesley
5.3-13
45°- 45° Right Triangles
Copyright © 2009 Pearson Addison-Wesley
5.3-14
Function Values of Special
Angles

sin  cos  tan  cot  sec  csc 
30
45
60
Copyright © 2009 Pearson Addison-Wesley
5.3-15
Reference Angles
A reference angle for an angle θ is the positive
acute angle made by the terminal side of angle θ
and the x-axis.
Copyright © 2009 Pearson Addison-Wesley
5.3-16
Caution
A common error is to find the
reference angle by using the terminal
side of θ and the y-axis.
The reference angle is always found
with reference to the x-axis.
17
Example 4(a) FINDING REFERENCE ANGLES
Find the reference angle for an angle of 218°.
The positive acute angle made
by the terminal side of the
angle and the x-axis is
218° – 180° = 38°.
For θ = 218°, the reference angle θ′ = 38°.
18
Example 4(b) FINDING REFERENCE ANGLES
Find the reference angle for an angle of 1387°.
First find a coterminal angle
between 0° and 360°.
Divide 1387 by 360 to get a
quotient of about 3.9. Begin by
subtracting 360° three times.
1387° – 3(360°) = 307°.
The reference angle for 307° (and thus for 1387°) is
360° – 307° = 53°.
19
20
Example 5
FINDING TRIGONOMETRIC FUNCTION
VALUES OF A QUADRANT III ANGLE
Find the values of the six trigonometric functions
for 210°.
The reference angle for a
210° angle is
210° – 180° = 30°.
Choose point P on the
terminal side of the angle so
the distance from the origin
to P is 2.
21
Example 5
FINDING TRIGONOMETRIC FUNCTION
VALUES OF A QUADRANT III ANGLE
(continued)
22
Finding Trigonometric Function Values For
Any Nonquadrantal Angle θ
Step 1
If θ > 360°, or if θ < 0°, find a coterminal angle by
adding or subtracting 360° as many times as
needed to get an angle greater than 0° but less
than 360°.
Step 2
Find the reference angle θ′.
Step 3
Find the trigonometric function values for
reference angle θ′.
Step 4
Determine the correct signs for the values found
in Step 3. This gives the values of the
trigonometric functions for angle θ.
23
Example 6(a) FINDING TRIGONOMETRIC FUNCTION
VALUES USING REFERENCE ANGLES
Find the exact value of cos (–240°).
24
Example 6(b) FINDING TRIGONOMETRIC FUNCTION
VALUES USING REFERENCE ANGLES
Find the exact value of tan 675°.
25
Example 9
FINDING ANGLE MEASURES GIVEN AN
INTERVAL AND A FUNCTION VALUE
Find all values of θ, if θ is in the interval [0°, 360°)
and
Since cos θ is negative, θ must lie in quadrant II or III.
The absolute value of cos θ is
angle is 45°.
so the reference
The angle in quadrant II is 180° – 45° = 135°.
The angle in quadrant III is 180° + 45° = 225°.
26
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