6.4 Trigonometric Functions

Slides:

Advertisements

Similar presentations

Identify a unit circle and describe its relationship to real numbers

Advertisements

Section 14-4 Right Triangles and Function Values.

Trigonometric Ratios in the Unit Circle. Warm-up (2 m) 1. Sketch the following radian measures:

Section 5.3 Trigonometric Functions on the Unit Circle

7.4 Trigonometric Functions of General Angles

Review of Trigonometry

2.3 Evaluating Trigonometric Functions for any Angle JMerrill, 2009.

Copyright © Cengage Learning. All rights reserved.

Copyright © Cengage Learning. All rights reserved. 4 Trigonometric Functions.

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/Precalculus ( R )

5.3 Trigonometric Functions of Any Angle Tues Oct 28 Do Now Find the 6 trigonometric values for 60 degrees.

Section 4.4. In first section, we calculated trig functions for acute angles. In this section, we are going to extend these basic definitions to cover.

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.

Section 7.2 The Inverse Trigonometric Functions (Continued)

Lesson 4.4 Trigonometric Functions of Any Angle. Let  be an angle in standard position with (x, y) a point on the Terminal side of  and Trigonometric.

Trigonometric Functions on the

Introduction The six trigonometric functions (sine, cosine, tangent, cosecant, secant, and cotangent) can be used to find the length of the sides of a.

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

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,

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

4-3: Trigonometric Functions of Any Angle What you’ll learn about ■ Trigonometric Functions of Any Angle ■ Trigonometric Functions of Real Numbers ■ Periodic.

Definition of Trigonometric Functions With trigonometric ratios of acute angles in triangles, we are limited to angles between 0 and 90 degrees. We now.

4.1: Radian and Degree Measure Objectives: To use radian measure of an angle To convert angle measures back and forth between radians and degrees To find.

Using Trigonometric Ratios

Section 5.3 Trigonometric Functions on the Unit Circle

1 Trigonometric Functions of Any Angle & Polar Coordinates Sections 8.1, 8.2, 8.3,

Trigonometric Functions of Any Angle & Polar Coordinates

7.5 The Other Trigonometric Functions

Trigonometry functions of A General Angle

5.3 Right-Triangle-Based Definitions of Trigonometric Functions

Trigonometry for Any Angle

Bell Work Find all coterminal angles with 125° Find a positive and a negative coterminal angle with 315°. Give the reference angle for 212°.

SECTION 2.3 EQ: Which of the trigonometric functions are positive and which are negative in each of the four quadrants?

Trigonometric Ratios in the Unit Circle 6 December 2010.

Chapter 6 – Trigonometric Functions: Right Triangle Approach Trigonometric Functions of Angles.

4.2 Trigonometric Functions (part 2) III. Trigonometric Functions. A) Basic trig functions: sine, cosine, tangent. B) Trig functions on the unit circle:

Trig Functions of Angles Right Triangle Ratios (5.2)(1)

Section 5.3 Evaluating Trigonometric Functions

Trig/Precalculus Section 5.1 – 5.8 Pre-Test. For an angle in standard position, determine a coterminal angle that is between 0 o and 360 o. State the.

5.3 The Unit Circle. A circle with center at (0, 0) and radius 1 is called a unit circle. The equation of this circle would be So points on this circle.

4.4 Trigonmetric functions of Any Angle. Objective Evaluate trigonometric functions of any angle Use reference angles to evaluate trig functions.

These angles will have the same initial and terminal sides. x y 420º x y 240º Find a coterminal angle. Give at least 3 answers for each Date: 4.3 Trigonometry.

Trigonometric Functions: The Unit Circle Section 4.2.

Reciprocal functions secant, cosecant, cotangent Secant is the reciprocal of cosine. Reciprocal means to flip the ratio. Cosecant is the reciprocal of.

Copyright © Cengage Learning. All rights reserved. Trigonometric Functions: Right Triangle Approach.

The Fundamental Identity and Reference Angles. Now to discover my favorite trig identity, let's start with a right triangle and the Pythagorean Theorem.

7-3 Sine and Cosine (and Tangent) Functions 7-4 Evaluating Sine and Cosine sin is an abbreviation for sine cos is an abbreviation for cosine tan is an.

Section 3 – Circular Functions Objective To find the values of the six trigonometric functions of an angle in standard position given a point on the terminal.

Bellringer 3-28 What is the area of a circular sector with radius = 9 cm and a central angle of θ = 45°?

Use Reference Angles to Evaluate Functions For Dummies.

TRIGONOMETRY FUNCTIONS OF GENERAL ANGLES SECTION 6.3.

C H. 4 – T RIGONOMETRIC F UNCTIONS 4.2 – The Unit Circle.

WARM UP Find sin θ, cos θ, tan θ. Then find csc θ, sec θ and cot θ. Find b θ 60° 10 b.

Section 4.4 Trigonometric Functions of Any Angle.

4.4 Day 1 Trigonometric Functions of Any Angle –Use the definitions of trigonometric functions of any angle –Use the signs of the trigonometric functions.

Holt McDougal Algebra The Unit Circle Toolbox p. 947(1-34) 13.3a 13.3b radian degrees unit circle.

4.4 Trig Functions of Any Angle Objectives: Evaluate trigonometric functions of any angle Use reference angles to evaluate trig functions.

Bell Work R Find the 6 trig functions for

Then/Now You found values of trigonometric functions for acute angles using ratios in right triangles. (Lesson 4-1) Find values of trigonometric functions.

§5.3.  I can use the definitions of trigonometric functions of any angle.  I can use the signs of the trigonometric functions.  I can find the reference.

Copyright © 2014, 2010, 2007 Pearson Education, Inc.

Objectives: Students will learn how to find Cos, Sin & Tan using the special right triangles.

Lesson 4.4 Trigonometric Functions of Any Angle

Objectives Students will learn how to use special right triangles to find the radian and degrees.

Chapter 8: The Unit Circle and the Functions of Trigonometry

Chapter 8: The Unit Circle and the Functions of Trigonometry

Trigonometric Functions: Unit Circle Approach

Solving for Exact Trigonometric Values Using the Unit Circle

Presentation transcript:

6.4 Trigonometric Functions Objectives: Define the Trigonometric Ratios in the coordinate plane. Define the Trigonometric functions in terms of the unit circle.

Example #1 Coterminal Angles Coterminal angles share the same terminal side from standard position. Find a positive & negative angle coterminal with the given angle. A. 30° B. C.

Trigonometric Ratios on the Coordinate Plane Regardless of the length of the radius, the trigonometric ratios remain the same.

The Unit Circle Because the length of the radius doesn’t matter with respect to the trig ratios, the unit circle was developed to simplify calculations. Therefore, any point P on the unit circle has the coordinates (cos t, sin t).

Memorizing the Unit Circle

Reference Angles Reference Angles are positive acute angles formed from the terminal side of θ and the x-axis. They are used to simplify finding exact values for trigonometric ratios anywhere on the unit circle.

Example #2 Find the Following Reference Angles -480° 290° 540° - 480° = 60° 360° - 290° = 70°

Example #2 Find the Following Reference Angles

Finding Exact Values for Trig Functions (– , +) (+, +) Look at the sin(30°). The sine value is always the y-coordinate, so the exact value is ½. This angle is also a reference angle for 150°, 210°, 330°, etc. If you look at the various values around the unit circle for the angles above, you’ll notice that they all have ½ as the value, but change signs depending on the quadrant. Since (x, y)  (cosθ, sinθ), then the signs of the trig values will follow the signs of the x- and y-coordinates. (– , –) (+ , –) Steps to finding exact values: Find the reference angle. Find the exact value for the trig function of the reference angle. Translate the value to the correct quadrant changing the signs if necessary.

Example #3 Find the Exact Value for the Trig Functions sin 120° tan -405° Reference: Original angle is in Quadrant II. The sine values stay positive in Quadrant II since they are the y-coordinates. Reference: Original angle is in Quadrant IV. The tangent values become negative in Quadrant IV.

Example #3 Find the Exact Value for the Trig Functions sec csc Reference: Original angle is in Quadrant I. Since cosine is positive, so is secant. Reference: Original angle is in Quadrant II. Since sine is positive in Quadrant II, so is cosecant.