9.5 Trigonometric Ratios - PowerPoint PPT Presentation

1 / 21
About This Presentation
Title:

9.5 Trigonometric Ratios

Description:

Study and don t slack off now. sin A = Side opposite A hypotenuse = a c cos A = Side adjacent to A hypotenuse = b c tan A = Side opposite A Side adjacent ... – PowerPoint PPT presentation

Number of Views:187
Avg rating:3.0/5.0
Slides: 22
Provided by: pats3
Category:

less

Transcript and Presenter's Notes

Title: 9.5 Trigonometric Ratios


1
9.5 Trigonometric Ratios
  • Geometry
  • Mrs. Spitz
  • Spring 2005

2
Objectives/Assignment
  • Find the since, the cosine, and the tangent of an
    acute triangle.
  • Use trionometric ratios to solve real-life
    problems, such as estimating the height of a tree
    or flagpole.
  • To solve real-life problems such as in finding
    the height of a water slide.
  • Assignment pp. 562-563 3-38 all
  • Due TODAY 9.4
  • Quiz next time we meet

3
Finding Trig Ratios
  • A trigonometric ratio is a ratio of the lengths
    of two sides of a right triangle. The word
    trigonometry is derived from the ancient Greek
    language and means measurement of triangles. The
    three basic trigonometric ratios are sine,
    cosine, and tangent, which are abbreviated as
    sin, cos, and tan respectively.

4
Trigonometric Ratios
  • Let ?ABC be a right triangle. The since, the
    cosine, and the tangent of the acute angle ?A are
    defined as follows.

Side adjacent to ?A
b
cos A

hypotenuse
c
Side opposite ?A
a
sin A

hypotenuse
c
Side opposite ?A
a
tan A

Side adjacent to ?A
b
5
Note
  • The value of a trigonometric ratio depends only
    on the measure of the acute angle, not on the
    particular right triangle that is used to compute
    the value.

6
Ex. 1 Finding Trig Ratios
  • Compare the sine, the cosine, and the tangent
    ratios for ?A in each triangle beside.
  • By the SSS Similarity Theorem, the triangles are
    similar. Their corresponding sides are in
    proportion which implies that the trigonometric
    ratios for ?A in each triangle are the same.

7
Ex. 1 Finding Trig Ratios
Large Small



opposite
8
sin A

0.4706
4

0.4706
hypotenuse
17
8.5
adjacent
7.5
cosA
15

0.8824

0.8824
hypotenuse
8.5
17
opposite
tanA
8
4

0.5333

0.5333
adjacent
15
7.5
Trig ratios are often expressed as decimal
approximations.
8
Ex. 2 Finding Trig Ratios
?S



opposite
5
sin S

0.3846
hypotenuse
13
adjacent
cosS
12

0.9231
hypotenuse
13
opposite
tanS
5

0.4167
adjacent
12
9
Ex. 2 Finding Trig RatiosFind the sine, the
cosine, and the tangent of the indicated angle.
?R



opposite
12
sin S

0.9231
hypotenuse
13
adjacent
cosS
5

0.3846
hypotenuse
13
opposite
tanS
12

2.4
adjacent
5
10
Ex. 3 Finding Trig RatiosFind the sine, the
cosine, and the tangent of 45?
45?



opposite
1
v2
sin 45?


0.7071
hypotenuse
v2
2
adjacent
1
v2
cos 45?


0.7071
hypotenuse
v2
2
opposite
1
tan 45?
adjacent

1
1
Begin by sketching a 45?-45?-90? triangle.
Because all such triangles are similar, you can
make calculations simple by choosing 1 as the
length of each leg. From Theorem 9.8 on page
551, it follows that the length of the hypotenuse
is v2.
v2
45?
11
Ex. 4 Finding Trig RatiosFind the sine, the
cosine, and the tangent of 30?
30?



opposite
1
sin 30?

0.5
hypotenuse
2
adjacent
v3
cos 30?

0.8660
hypotenuse
2
opposite
v3
1
tan 30?

adjacent

0.5774
3
v3
Begin by sketching a 30?-60?-90? triangle. To
make the calculations simple, you can choose 1 as
the length of the shorter leg. From Theorem 9.9,
on page 551, it follows that the length of the
longer leg is v3 and the length of the hypotenuse
is 2.
30?
v3
12
Ex 5 Using a Calculator
  • You can use a calculator to approximate the sine,
    cosine, and the tangent of 74?. Make sure that
    your calculator is in degree mode. The table
    shows some sample keystroke sequences accepted by
    most calculators.

13
Sample keystrokes
Sample keystroke sequences Sample calculator display Rounded Approximation
74 74 0.961262695 0.9613
0.275637355 0.2756
3.487414444 3.4874
sin
sin
ENTER
74 74
COS
COS
ENTER
74 74
TAN
TAN
ENTER
14
Notes
  • If you look back at Examples 1-5, you will notice
    that the sine or the cosine of an acute triangles
    is always less than 1. The reason is that these
    trigonometric ratios involve the ratio of a leg
    of a right triangle to the hypotenuse. The
    length of a leg or a right triangle is always
    less than the length of its hypotenuse, so the
    ratio of these lengths is always less than one.

15
Trigonometric Identities
  • A trigonometric identity is an equation involving
    trigonometric ratios that is true for all acute
    triangles. You are asked to prove the following
    identities in Exercises 47 and 52.
  • (sin A)2 (cos A)2 1

sin A
tan A
cos A
16
Using Trigonometric Ratios in Real-life
  • Suppose you stand and look up at a point in the
    distance. Maybe you are looking up at the top of
    a tree as in Example 6. The angle that your line
    of sight makes with a line drawn horizontally is
    called angle of elevation.

17
Ex. 6 Indirect Measurement
  • You are measuring the height of a Sitka spruce
    tree in Alaska. You stand 45 feet from the base
    of the tree. You measure the angle of elevation
    from a point on the ground to the top of the top
    of the tree to be 59. To estimate the height of
    the tree, you can write a trigonometric ratio
    that involves the height h and the known length
    of 45 feet.

18
The math
Write the ratio
Substitute values
Multiply each side by 45
45 tan 59 h
Use a calculator or table to find tan 59
45 (1.6643) h
Simplify
75.9 h
?The tree is about 76 feet tall.
19
Ex. 7 Estimating Distance
  • Escalators. The escalator at the
    Wilshire/Vermont Metro Rail Station in Los
    Angeles rises 76 feet at a 30 angle. To find
    the distance d a person travels on the escalator
    stairs, you can write a trigonometric ratio that
    involves the hypotenuse and the known leg of 76
    feet.

30
20
Now the math
30
Write the ratio for sine of 30
Substitute values.
d sin 30 76
Multiply each side by d.
Divide each side by sin 30
Substitute 0.5 for sin 30
d 152
Simplify
?A person travels 152 feet on the escalator
stairs.
21
Reminders
  • After this section, you have a quiz on Thursday
    or Friday.
  • Chapter 9 exam will take place before you leave
    for spring break . . . Take it before you go on
    break.
  • Binder check before spring break. These are your
    new grades for the last quarter of the year.
    Study and dont slack off now.
Write a Comment
User Comments (0)
About PowerShow.com