Lesson 52 – Double Angle & Half Angle Identities

Slides:

Advertisements

Similar presentations

Ch:7 Trigonometric Identities and Equations

Advertisements

10.3 Double Angle and Half Angle Formulas

15.5 Double Angle Identities. Double Angle Identities.

6.2 Trigonometric Integrals. How to integrate powers of sinx and cosx (i) If the power of cos x is odd, save one cosine factor and use cos 2 x = 1 - sin.

Lesson 24 – Double Angle & Half Angle Identities

Multiple Angle Formulas ES: Demonstrating understanding of concepts Warm-Up: Use a sum formula to rewrite sin(2x) in terms of just sin(x) & cos(x). Do.

Warm Up Sign Up. AccPreCalc Lesson 27 Essential Question: How are trigonometric equations solved? Standards: Prove and apply trigonometric identities.

6.2 Cofunction and Double-Angle Identities Fri Dec 5 Do Now Simplify (sinx + cosx)(sinx – cosx)

5.1 Using Fundamental Identities. Fundamental Trigonometric Identities.

Chapter 6 Trig 1060.

Lesson 41 - Trigonometric Equations IB Math SL - Santowski 10/5/2015IB Math SL - Santowski1.

ANALYTIC TRIGONOMETRY UNIT 7. VERIFYING IDENTITIES LESSON 7.1.

1 + tan2u = sec2u 1 + cot2u = csc2u

10/15/2015Math 2 Honors 1 Lesson 15 – Algebra of Quadratics – The Quadratic Formula Math 2 Honors - Santowski.

Lesson 31 – Simplifying Radical Expressions Math 2 Honors - Santowski 10/26/20151Math 2 Honors - Santowski.

Using our work from the last few weeks,

Double Angle Formulas T, 11.0: Students demonstrate an understanding of half-angle and double- angle formulas for sines and cosines and can use those formulas.

B.1.8 – Derivatives of Primary Trig Functions Calculus - Santowski 12/1/ Calculus - Santowski.

Lesson 39 - Derivatives of Primary Trigonometric Functions IB Math HL - Santowski 12/14/2015Calculus - Santowski1.

Further Trigonometric identities and their applications.

12/20/2015 Math 2 Honors - Santowski 1 Lesson 53 – Solving Trigonometric Equations Math 2 Honors - Santowski.

Warm Up May 8 th Evaluate each of the following. 1.tan(570°)2. csc(11π/6) 3.cot(5π/2)4. sec(-210°) Solve for θ if 0°

T.3.3 – Trigonometric Identities – Double Angle Formulas

Lesson 47 – Trigonometric Functions Math 2 Honors - Santowski 2/12/2016Math 2 Honors - Santowski1.

Lesson 20 – Introducing and Applying Base e. IB Math SL1 - Santowski.

2/21/ Lesson 37 – Addition & Subtraction Identities PreCalculus - Santowski PreCalculus.

1 Lesson 33 - Trigonometric Identities Pre-Calculus.

3/9/2016 Math SL1 - Santowski 1 3/9/2016 Math SL1 - Santowski 1 Lesson 14 - The Inverse Function.

March 12, 2012 At the end of today, you will be able to use the double and half angle formulas to evaluate trig identities. Warm-up: Use the sum identities.

1 T Trigonometric Identities IB Math SL - Santowski.

1 Lesson 22 - Trigonometric Identities IB Math HL 6/12/2016HL Math - Santowski.

1 Lesson 43 - Trigonometric Identities IB Math SL - Santowski 10/1/2016IB Math SL1 - Santowski.

Lesson 44 – Trigonometric Identities – Double Angle Formulas

Lesson 49 – Inverse Trig Functions

Lesson 38 - Laws of Logarithms

Lesson 14 – Algebra of Quadratics – The Quadratic Formula

Trigonometric Identities III Half Angles or t-formulae.

Double and Half Angle Formulas

9-3: Other Identities.

Lesson 50 - Trigonometric Identities

Lesson 26 – Quadratic Trigonometric Equations

Lesson 51 – Addition & Subtraction Identities

Weekly Plan Monday – 1/27/14 Tuesday – 1/28/14 Wednesday Group Work

Lesson 3 – 1.6/1.7 – Linear Equations & Inequalities

Homework Lesson Handout

Lesson 31 – Inverse Trig Functions

Lesson 38 – Double Angle & Half Angle Identities

Lesson 36 – Quadratic Trigonometric Equations

9.3 Double-Angle and Half-Angle Formulas

Ch 7 – Trigonometric Identities and Equations

Double- And Half-Angle Formulas

Half-Angle Identities 11-5

Lesson 45 - Trigonometric Identities

Warm-up: Find sin(195o) HW : pg. 501(1 – 18).

Lesson 37 – Base e and Natural Logs

Aim: How do we prove and apply the Pythagorean identities?

Warm up Tell whether the relation is a function.

Find the following: sin 30˚ (no calculator allowed)

Power-reducing & Half angle identities

Solving Trigonometric Identities

5.5-Multiple Angle Formulas

Multiple Angle Identities

Solving Trigonometric Equations

Main Ideas of Hon PreCalc Ch. 5 Class 1

Lesson 7 – Algebra of Quadratics – The Quadratic Formula

Lesson 33 – Inequalities with Radical Functions

Lesson 44 – Inverse Trig Functions

Presentation transcript:

Lesson 52 – Double Angle & Half Angle Identities Math 2 Honors - Santowski 10/18/2019 Math 2 Honors - Santowski

Fast Five Graph the following functions and develop an alternative equation for the graphed function (i.e. Develop an identity for the given functions) f(x) = 2sin(x)cos(x) g(x) = cos2(x) – sin2(x) 10/18/2019 IB Math SL - Santowski

Fast Five 10/18/2019 IB Math SL - Santowski

Math 2 Honors - Santowski (A) Review List the six new identities that we call the addition subtraction identities 10/18/2019 Math 2 Honors - Santowski

Math 2 Honors - Santowski (A) Review List the six new identities that we call the addition subtraction identities 10/18/2019 Math 2 Honors - Santowski

(B) Using the Addition/Subtraction Identities We can use the addition/subtraction identities to develop new identities: Develop a new identity for: (a) sin(2x) (b) cos(2x) (c) tan(2x) 10/18/2019 Math 2 Honors - Santowski

(B) Double Angle Formulas sin(2x) = 2 sin(x) cos(x) cos(2x) = cos2(x) – sin2(x) 10/18/2019 IB Math SL - Santowski

(B) Double Angle Formulas Working with cos(2x) = cos2(x) – sin2(x) But recall the Pythagorean Identity where sin2(x) + cos2(x) = 1 So sin2(x) = 1 – cos2(x) And cos2(x) = 1 – sin2(x) So cos(2x) = cos2(x) – (1 – cos2(x)) = 2cos2(x) - 1 And cos(2x) = (1 – sin2(x)) – sin2(x) = 1 – 2sin2(x) 10/18/2019 IB Math SL - Santowski

(B) Double Angle Formulas Working with cos(2x) cos(2x) = cos2(x) – sin2(x) cos(2x) = 2cos2(x) - 1 cos(2x) = 1 – 2sin2(x) 10/18/2019 IB Math SL - Santowski

(C) Double Angle Identities - Applications (a) Determine the value of sin(2θ) and cos(2θ) if (b) Determine the values of sin(2θ) and cos(2θ) if (c) Determine the values of sin(2θ) and cos(2θ) if 10/18/2019 IB Math SL - Santowski

(C) Double Angle Identities - Applications Simplify the following expressions: 10/18/2019 IB Math SL - Santowski

(C) Double Angle Identities - Applications Write as a single function: 10/18/2019 IB Math SL - Santowski

(C) Double Angle Identities - Applications Use the double angle identities to prove that the following equations are identities: 10/18/2019 IB Math SL - Santowski

(D) Using the Double Angle Formulas (a) If sin(x) = 21/29, where 0º < x < 90º, evaluate: (i) sin(2x), (ii) cos(2x), (iii) tan(2x) (b) SOLVE the equation cos(2x) + cos(x) = 0 for 0º < x < 360º (c) Solve the equation sin(2x) + sin(x) = 0 for -180º < x < 540º. (d) Write sin(3x) in terms of sin(x) (e) Write cos(3x) in terms of cos(x) 10/18/2019 Math 2 Honors - Santowski

(E) Half Angle Identities Start with the identity cos(2x) = 1 – 2sin2(x) Isolate sin2(x)  this is called a “power reducing” identity  Why? Now, make the substitution x = θ/2 and isolate sin(θ/2) Start with the identity cos(2x) = 2cos2(x) - 1 Isolate cos2(x)  this is called a “power reducing” identity  Why? Now, make the substitution x = θ/2 and isolate cos(θ/2) 10/18/2019 Math 2 Honors - Santowski

(E) Half Angle Identities So the new half angle identities are: 10/18/2019 Math 2 Honors - Santowski

(F) Using the Half Angle Formulas Prove the identity: 10/18/2019 Math 2 Honors - Santowski

(F) Using the Half Angle Formulas (a) If sin(x) = 21/29, where 0º < x < 90º, evaluate: (i) sin(x/2), (ii) cos(x/2) (b) develop a formula for tan(x/2) (c) Use the half-angle formulas to evaluate: 10/18/2019 Math 2 Honors - Santowski

Math 2 Honors - Santowski (F) Homework HW S14.5, p920-922, Q8-13,20-23, 25-39odds 10/18/2019 Math 2 Honors - Santowski