9.4 Evaluate Inverse Trigonometric Functions

Download Report

Transcript 9.4 Evaluate Inverse Trigonometric Functions

9.4 Evaluate Inverse
Trigonometric Functions
How are inverse Trigonometric functions used?
How much information must be given about side
lengths in a right triangle in order for you to be able to
find the measures of its acute angles?
Inverse Trig Functions
y
x
Inverse Trig Functions
y
0
x
Inverse Trig Functions
y
x
Evaluate the expression in both radians and degrees.
a. cos–1 √ 3
2
SOLUTION
a. When 0 ≤ θ ≤ π or 0°≤ θ ≤
whose cosine is √ 3
2
π
√3
–1
cos
=
θ =
2
6
180°, the angle
√ 3 30°
=
θ = cos–1
2
y
90°
120°
60°
45°
135°
30°
150°
0°
360°
180°
330°
210°
315°
225°
240°
300°
270°
x
Evaluate the expression in both radians and degrees.
b. sin–1 2
SOLUTION
b. There is no angle whose sine is 2. So, sin–1 2 is
undefined.
Evaluate the expression in both radians and degrees.
c. tan–1 ( – √ 3 )
SOLUTION
c.
When – π < θ < π , or – 90° < θ < 90°, the
2
2
angle whose tangent is – √ 3 is:
θ=
tan–1
π
–
(–√3 ) =
3
θ = tan–1 ( – √ 3 ) = –60°
Evaluate the expression in both radians and degrees.
1.
sin–1 √ 2
2
ANSWER
2.
3.
π , 45°
4
cos–1 1
2
ANSWER
ANSWER – 4π , –45°
4.
π , 60°
3
tan–1 (–1)
sin–1 (– 1 )
2
ANSWER – 6π , –30°
Solve a Trigonometric Equation
5
Solve the equation sin θ = – 8 where 180° < θ < 270°.
SOLUTION
STEP 1
Use a calculator to determine that in the
interval –90° ≤ θ ≤ 90°, the angle whose
5
sine is – 5 is sin–1 –
– 38.7°. This
8
8
angle is in Quadrant IV, as shown.
STEP 2
Find the angle in Quadrant III (where
180° < θ < 270°) that has the same sine
value as the angle in Step 1. The angle is:
θ 180° + 38.7° = 218.7°
CHECK : Use a calculator to check the answer.
5
–

sin 218.7° – 0.625 =
8
Solve the equation for
5. cos θ = 0.4;
ANSWER
6. tan θ = 2.1;
ANSWER
7. sin θ = –0.23;
ANSWER
270° < θ < 360°
about 293.6°
360  66.4  293 .6
180° < θ < 270°
about 244.5°
64.5  180  244 .5
270° < θ < 360°
about 346.7°
360  13.3  346 .7
Solve the equation for
8. tan θ = 4.7;
ANSWER
9. sin θ = 0.62;
ANSWER
180° < θ < 270°
about 258.0°
78  180  258
90° < θ < 180°
about 141.7°
180  38.3  141 .7
10. cos θ = –0.39; 180° < θ < 270°
ANSWER
about 247.0°
360  113  247
SOLUTION
In the right triangle, you are given the lengths of the
side adjacent to θ and the hypotenuse, so use the
inverse cosine function to solve for θ.
cos θ =
6
adj
= 11
hyp
θ = cos
ANSWER The correct answer is C.
–1
6
11
56.9°
Monster Trucks
A monster truck drives off a ramp in order to jump
onto a row of cars. The ramp has a height of 8 feet
and a horizontal length of 20 feet. What is the angle θ
of the ramp?
http://www.youtube.com/watch?v=7SjX7A_FR6g
http://www.youtube.com/watch?v=SrzXaDFZcAo
SOLUTION
STEP 1 Draw: a triangle that represents the ramp.
Write: a trigonometric equation
STEP 2
that involves the ratio of the
ramp’s height and horizontal
length.
8
opp
tan θ =
= 20
adj
STEP 3 Use: a calculator to find the measure of θ.
θ=
tan–1
8
20
21.8°
ANSWER
The angle of the ramp is about 22°.
Find the measure of the angle θ.
11.
SOLUTION
In the right triangle, you are given the lengths of the
side adjacent to θ and the hypotenuse. So, use the
inverse cosine function to solve for θ.
cos θ =
adj
4
= 9
hyp
θ = cos–1 4
9
63.6°
Find the measure of the angle θ.
12.
SOLUTION
In the right triangle, you are given the lengths of the
side opposite to θ and the side adjacent. So, use the
inverse tan function to solve for θ.
tan θ =
opp
10
= 8
adj
θ = tan–1 10
8
51.3°
Find the measure of the angle θ.
13.
SOLUTION
In the right triangle, you are given the lengths of the
side opposite to θ and the hypotenuse. So, use the
inverse sin function to solve for θ.
sin θ =
opp
5
= 12
hyp
θ = sin–1
5
12
24.6°
9.4 Assignment
Page 582, 3-29 odd