Presentation is loading. Please wait.

Presentation is loading. Please wait.

4.2, 4.4 – The Unit Circle, Trig Functions The unit circle is defined by the equation x 2 + y 2 = 1. It has its center at the origin and radius 1. (0,

Published byLuke Stevenson Modified over 9 years ago

Similar presentations

Presentation on theme: "4.2, 4.4 – The Unit Circle, Trig Functions The unit circle is defined by the equation x 2 + y 2 = 1. It has its center at the origin and radius 1. (0,"— Presentation transcript:

1 4.2, 4.4 – The Unit Circle, Trig Functions The unit circle is defined by the equation x 2 + y 2 = 1. It has its center at the origin and radius 1. (0, 1) (1, 0) 1 (0,  1) (  1, 0)

2 4.2, 4.4 – The Unit Circle, Trig Functions If the point (x, y) lies on the terminal side of θ, the six trig functions of θ can be defined as follows: (x, y) y θ x A reference triangle is made by “dropping” a perpendicular line segment to the x-axis. r 2 = x 2 + y 2 r (−, +) (−, −)(+, −)

3 4.2, 4.4 – The Unit Circle, Trig Functions Evaluate the six trig functions of an angle θ whose terminal side contains the point (−5, 2). (−5, 2) 2 −5

4 4.2, 4.4 – The Unit Circle, Trig Functions For a unit circle (radius 1) 1 (1, 0) 1  (x, y) sin  = y cos  = x tan  =

5 4.2, 4.4 – The Unit Circle, Trig Functions 1 (1, 0) 1

6 4.2, 4.4 – The Unit Circle, Trig Functions

7 Find the six trig functions of 0º (1, 0) r = 1

8 4.2, 4.4 – The Unit Circle, Trig Functions Deg.Rad.SinCosTan 0º0º0010 30º 45º1 60º 90º10undef. 180º  0−10 270º−10undef. 360º 22 010 Summary

9 4.2, 4.4 – The Unit Circle, Trig Functions Basic Trig Identities ReciprocalQuotientPythagorean sin 2 θ + cos 2 θ = 1 tan 2 θ + 1 = sec 2 θ cot 2 θ + 1 = csc 2 θ Cofunction sinθ = cos(90  θ) tanθ = cot(90  θ) secθ = csc(90  θ) Even cos(  θ) = cos θ sec(  θ) = sec θ Odd sin(  θ) =  sin θ tan(  θ) =  tan θ cot(  θ) =  cot θ csc(  θ) =  csc θ

10 4.2, 4.4 – The Unit Circle, Trig Functions Use trig identities to evaluate the six trig functions of an angle θ if cos θ = and θ is a 4 th quadrant angle. sin 2 θ= 1 − cos 2 θ 4 5 −3

11 4.2, 4.4 – The Unit Circle, Trig Functions For any angle θ, the reference angle for θ, generally written θ', is always positive, always acute, and always made with the x-axis. θ θ'

12 4.2, 4.4 – The Unit Circle, Trig Functions For any angle θ, the reference angle for θ, generally written θ', is always positive, always acute, and always made with the x-axis. θ' θ

13 4.2, 4.4 – The Unit Circle, Trig Functions For any angle θ, the reference angle for θ, generally written θ', is always positive, always acute, and always made with the x-axis. θ θ'

14 4.2, 4.4 – The Unit Circle, Trig Functions Find the reference angles for α and β below. α = 217º β = 301º α' = 217º − 180º = 37º β' = 360º − 301º = 59º 37º 59º

15 4.2, 4.4 – The Unit Circle, Trig Functions The trig functions for any angle θ may differ from the trig functions of the reference angle θ' only in sign. θ = 135º θ' = 180º − 135º = 45º sin 135º=  sin 45º =  = cos 135º = − tan 135º = −1 θ θ'θ θ'

16 4.2, 4.4 – The Unit Circle, Trig Functions A function is periodic if f(x + np) = f(x) for every x in the domain of f, every integer n, and some positive number p (called the period). 0, 2π sine & cosine period = 2π secant & cosecant period = 2π tangent & cotangent period = π

17 4.2, 4.4 – The Unit Circle, Trig Functions sin = tan =

18 Find the exact value of each.

Download ppt "4.2, 4.4 – The Unit Circle, Trig Functions The unit circle is defined by the equation x 2 + y 2 = 1. It has its center at the origin and radius 1. (0,"

Similar presentations

Identify a unit circle and describe its relationship to real numbers

Identify a unit circle and describe its relationship to real numbers
The Inverse Trigonometric Functions Section 4.2. Objectives Find the exact value of expressions involving the inverse sine, cosine, and tangent functions.

The Inverse Trigonometric Functions Section 4.2. Objectives Find the exact value of expressions involving the inverse sine, cosine, and tangent functions.
Section 5.3 Trigonometric Functions on the Unit Circle

Section 5.3 Trigonometric Functions on the Unit Circle
7.4 Trigonometric Functions of General Angles

7.4 Trigonometric Functions of General Angles
Trigonometric Functions of Any Angle 4.4. Definitions of Trigonometric Functions of Any Angle Let  is be any angle in standard position, and let P =

Trigonometric Functions of Any Angle 4.4. Definitions of Trigonometric Functions of Any Angle Let  is be any angle in standard position, and let P =
Trigonometry The Unit Circle.

Trigonometry The Unit Circle.
Trigonometry/Precalculus ( R )

Trigonometry/Precalculus ( R )
7.3 Trigonometric Functions of Angles. Angle in Standard Position Distance r from ( x, y ) to origin always (+) r ( x, y ) x y  y x.

7.3 Trigonometric Functions of Angles. Angle in Standard Position Distance r from ( x, y ) to origin always (+) r ( x, y ) x y  y x.
Trigonometric Functions on the

Trigonometric Functions on the
Pre calculus Problem of the Day Homework: p. 472 1-17 odds, 25-31 odds, 39-59 odds On the unit circle name all indicated angles by their first positive.

Pre calculus Problem of the Day Homework: p odds, odds, odds On the unit circle name all indicated angles by their first positive.
Right Triangle Trigonometry Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 The six trigonometric functions of a.

Right Triangle Trigonometry Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 The six trigonometric functions of a.
Trigonometric Functions Brandon Cohen – NWRMS Science Bowl Team Presentation 2014-15 Season.

Trigonometric Functions Brandon Cohen – NWRMS Science Bowl Team Presentation Season.
4.4 Trigonometric Functions of any Angle Objective: Students will know how to evaluate trigonometric functions of any angle, and use reference angles to.

4.4 Trigonometric Functions of any Angle Objective: Students will know how to evaluate trigonometric functions of any angle, and use reference angles to.
6.4 Trigonometric Functions

6.4 Trigonometric Functions
Section 5.3 Trigonometric Functions on the Unit Circle

Section 5.3 Trigonometric Functions on the Unit Circle
3.5 The Trig Functions. sine cosine cosecant secant tangent cotangent sine and cosine are only 2 of the trig functions! Here are all 6!, x ≠ 0, y ≠ 0.

3.5 The Trig Functions. sine cosine cosecant secant tangent cotangent sine and cosine are only 2 of the trig functions! Here are all 6!, x ≠ 0, y ≠ 0.
Trigonometric Functions

Trigonometric Functions
5.3 Right-Triangle-Based Definitions of Trigonometric Functions

5.3 Right-Triangle-Based Definitions of Trigonometric Functions
Aim: What are the reciprocal functions and cofunction? Do Now: In AB = 17 and BC = 15. 1) Find a) AC b) c) d) 2) Find the reciprocal of a)b) c) A B C.

Aim: What are the reciprocal functions and cofunction? Do Now: In AB = 17 and BC = 15. 1) Find a) AC b) c) d) 2) Find the reciprocal of a)b) c) A B C.
Trigonometry for Any Angle

Trigonometry for Any Angle

Similar presentations

Ads by Google