Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lesson 7-3 The Sine and Cosine Functions. Objective:

Published byBo Chancey Modified over 9 years ago

Similar presentations

Presentation on theme: "Lesson 7-3 The Sine and Cosine Functions. Objective:"— Presentation transcript:

1 Lesson 7-3 The Sine and Cosine Functions

2 Objective:

3 To use the definitions of sine and cosine to find values of these functions and to solve simple trigonometric equations.

4 Trigonometry

5 The sine function is abbreviated sin

6 Trigonometry The sine function is abbreviated sin The cosine function is abbreviated cos

7 Let P(x,y) be any point on the circle x 2 + y 2 = r 2 and θ be an angle in standard position with terminal ray OP, as shown below. P(x,y) rθ O

8 Let P(x,y) be any point on the circle x 2 + y 2 = r 2 and θ be an angle in standard position with terminal ray OP, as shown below. We define the sin θ by: P(x,y) rθ O

9 Let P(x,y) be any point on the circle x 2 + y 2 = r 2 and θ be an angle in standard position with terminal ray OP, as shown below. We define the sin θ by: P(x,y) rθ O

10 Let P(x,y) be any point on the circle x 2 + y 2 = r 2 and θ be an angle in standard position with terminal ray OP, as shown below. We define the sin θ by: We define the cos θ by: P(x,y) rθ O

11 Let P(x,y) be any point on the circle x 2 + y 2 = r 2 and θ be an angle in standard position with terminal ray OP, as shown below. We define the sin θ by: We define the cos θ by: P(x,y) rθ O

12 If the terminal ray of an angle θ in standard position passes through (-3,2), find sin θ and cos θ.

13

14 Unit Circle

15 The unit circle is a circle with a center at the origin and has a radius of 1.

16 Unit Circle The unit circle is a circle with a center at the origin and has a radius of 1. Therefore its equation is simply:

17 Unit Circle The unit circle is a circle with a center at the origin and has a radius of 1. Therefore its equation is simply:

18 Unit Circle

19 Which now allows us to take our two formulas for sin θ and cos θ and change them to:

20 Unit Circle Which now allows us to take our two formulas for sin θ and cos θ and change them to:

21 Unit Circle Which now allows us to take our two formulas for sin θ and cos θ and change them to:

22 Now angles of rotations can locate you anywhere in the four quadrants. Since sin θ can now be determined strictly by the y-values, that means the sine of an angle will always be positive if your angle of rotation locates you in the 1 st of 2 nd quadrants.

23 ++ --

24 Likewise, cos θ can now be determined by the x-values, so the cosine function will always be positive if the angle of rotation locates you in the 1 st or 4 th quadrants.

25 + + - -

26 Find:

27

28

29

30

31 From the previous examples and the definitions of sin θ and cos θ we can see that the sine and cosine functions repeat their values every 360° or 2π radians. Formally, this means that for all θ:

32

33

34 We summarize these facts by saying that the sine and cosine functions are periodic and that they both have a fundamental period of 360 0 or 2π radians.

35 Assignment: Pgs. 272-274 1-41 odd, omit 31

Download ppt "Lesson 7-3 The Sine and Cosine Functions. Objective:"

Similar presentations

Identify a unit circle and describe its relationship to real numbers

Identify a unit circle and describe its relationship to real numbers
sin is an abbreviation for sine cos is an abbreviation for cosine

sin is an abbreviation for sine cos is an abbreviation for cosine
10 Trigonometry (1) Contents 10.1 Basic Terminology of Trigonometry

10 Trigonometry (1) Contents 10.1 Basic Terminology of Trigonometry
7-4 Evaluating and Graphing Sine and Cosine Objective: To use reference angles, calculators or tables, and special angles to find values of the sine and.

7-4 Evaluating and Graphing Sine and Cosine Objective: To use reference angles, calculators or tables, and special angles to find values of the sine and.
Section 7-3 The Sine and Cosine Functions Objective: To use the definitions of sine and cosine to find values of these functions and to solve simple trigonometric.

Section 7-3 The Sine and Cosine Functions Objective: To use the definitions of sine and cosine to find values of these functions and to solve simple trigonometric.
Review of Trigonometry

Review of Trigonometry
Angles and the Unit Circle

Angles and the Unit Circle
7-4 Evaluating Trigonometric Functions of Any Angle Evaluate trigonometric functions of any angle Use reference angles to evaluate trigonometric functions.

7-4 Evaluating Trigonometric Functions of Any Angle Evaluate trigonometric functions of any angle Use reference angles to evaluate trigonometric functions.
CalculusDay 1 Recall from last year  one full rotation = 360 0 Which we now also know = 2π radians Because of this little fact  we can obtain a lot of.

CalculusDay 1 Recall from last year  one full rotation = Which we now also know = 2π radians Because of this little fact  we can obtain a lot of.
Holt Geometry 8-Ext Trigonometry and the Unit Circle 8-Ext Trigonometry and the Unit Circle Holt Geometry Lesson Presentation Lesson Presentation.

Holt Geometry 8-Ext Trigonometry and the Unit Circle 8-Ext Trigonometry and the Unit Circle Holt Geometry Lesson Presentation Lesson Presentation.
Trigonometric Functions

Trigonometric Functions
Unit Circle Definition of Trig Functions. The Unit Circle  A unit circle is the circle with center at the origin and radius equal to 1 (one unit). 

Unit Circle Definition of Trig Functions. The Unit Circle  A unit circle is the circle with center at the origin and radius equal to 1 (one unit). 
UNIT CIRCLE. Review: Unit Circle – a circle drawn around the origin, with radius 1.

UNIT CIRCLE. Review: Unit Circle – a circle drawn around the origin, with radius 1.
Terminal Arm Length and Special Case Triangles DAY 2.

Terminal Arm Length and Special Case Triangles DAY 2.
Solving Trigonometric Equations The following equation is called an identity: This equation is true for all real numbers x.

Solving Trigonometric Equations The following equation is called an identity: This equation is true for all real numbers x.
More Practice with Trigonometry Section 4.3b. Let’s consider… Quadrantal Angle – angles whose terminal sides lie along one of the coordinate axes Note:

More Practice with Trigonometry Section 4.3b. Let’s consider… Quadrantal Angle – angles whose terminal sides lie along one of the coordinate axes Note:
Definition of Trigonometric Functions With trigonometric ratios of acute angles in triangles, we are limited to angles between 0 and 90 degrees. We now.

Definition of Trigonometric Functions With trigonometric ratios of acute angles in triangles, we are limited to angles between 0 and 90 degrees. We now.
Finding Exact Values of Trig Ratios. Special Right Triangles 30-60-90.

Finding Exact Values of Trig Ratios. Special Right Triangles
Lesson 7-1 Angles, Arcs, and Sectors. Objective:

Lesson 7-1 Angles, Arcs, and Sectors. Objective:
7.3 Trig. Functions on the Unit Circle. 7.3 CONT. T RIG F UNCTIONS ON THE U NIT C IRCLE Objectives:  Graph an angle from a special triangle  Evaluate.

7.3 Trig. Functions on the Unit Circle. 7.3 CONT. T RIG F UNCTIONS ON THE U NIT C IRCLE Objectives:  Graph an angle from a special triangle  Evaluate.

Similar presentations

Ads by Google