Presentation is loading. Please wait.

Presentation is loading. Please wait.

Warmup 9/2/15 Mr. C. believes he can prove that some kind of god must exist. The entire “natural” world around us works based on cause and effect. Thing.

Published byAlexia Blankenship Modified over 8 years ago

Similar presentations

Presentation on theme: "Warmup 9/2/15 Mr. C. believes he can prove that some kind of god must exist. The entire “natural” world around us works based on cause and effect. Thing."— Presentation transcript:

1 Warmup 9/2/15 Mr. C. believes he can prove that some kind of god must exist. The entire “natural” world around us works based on cause and effect. Thing B happens because thing A caused it. All of science relies on this. Nothing happens just “on its own”. If that’s so, where did the universe come from? Give this one some real thought. Understand the inverse trig functions pp 87: 3, 5, 7, 9 Objective Tonight’s Homework

2 Homework Help Let’s spend the first 10 minutes of class going over any problems with which you need help.

3 Notes on Inverse Trig Functions Our inverse trig functions are the functions that tell us what angle would give a desired result. For example, if we asked, ”The sine of what angle would equal 1?” What would our answer be?

4 Notes on Inverse Trig Functions Our inverse trig functions are the functions that tell us what angle would give a desired result. For example, if we asked, ”The sine of what angle would equal 1?” What would our answer be? π/2

5 Notes on Inverse Trig Functions Our inverse trig functions are the functions that tell us what angle would give a desired result. For example, if we asked, ”The sine of what angle would equal 1?” What would our answer be? π/2 but also 5 π/2, 9 π/2, 13 π/2, 17 π/2… hmmm.

6 Notes on Inverse Trig Functions We want to just have one answer, not infinite. To solve this, mathematicians have defined ranges for each inverse function.

7 Notes on Inverse Trig Functions We want to just have one answer, not infinite. To solve this, mathematicians have defined ranges for each inverse function. For sin(x), our range runs from -π/2 to π/2 For cos(x), our range runs from 0 to π For tan(x), our range runs from -∞ to ∞

8 Notes on Inverse Trig Functions Another thing to note… sin -1 (x) does not equal 1 / sin(x) or csc(x)! The inverse functions are totally unique things that must be dealt with as their own things!

9 Notes on Inverse Trig Functions Example: Solve sin 2 x = 1 (0<=x <2π)

10 Notes on Inverse Trig Functions Example: Solve sin 2 x = 1 (0<=x <2π) sin 2 x – 1 = 0

11 Notes on Inverse Trig Functions Example: Solve sin 2 x = 1 (0<=x <2π) sin 2 x – 1 = 0 (sin x – 1)(sin x + 1) = 0

12 Notes on Inverse Trig Functions Example: Solve sin 2 x = 1 (0<=x <2π) sin 2 x – 1 = 0 (sin x – 1)(sin x + 1) = 0 sin x = 1orsin x= –1

13 Notes on Inverse Trig Functions Example: Solve sin 2 x = 1 (0<=x <2π) sin 2 x – 1 = 0 (sin x – 1)(sin x + 1) = 0 sin x = 1orsin x= –1 x = π/2x = 3π/2

14 Group Practice Look at the example problems on pages 84 through 86. Make sure the examples make sense. Work through them with a friend. Then look at the homework tonight and see if there are any problems you think will be hard. Now is the time to ask a friend or the teacher for help!

15 Exit Question Solve 2sin 2 (x) = 3 + 3cos(x) for (0 < x < 360) a) 60 b) 120 c) 120, 180 d) 120, 180, 240 e) 120, 180, 240, 360 f) None of the above

Download ppt "Warmup 9/2/15 Mr. C. believes he can prove that some kind of god must exist. The entire “natural” world around us works based on cause and effect. Thing."

Similar presentations

5.5 Solving Trigonometric Equations Example 1 A) Is a solution to ? B) Is a solution to cos x = sin 2x ?

5.5 Solving Trigonometric Equations Example 1 A) Is a solution to ? B) Is a solution to cos x = sin 2x ?
5.3 Solving Trigonometric Equations. What are two values of x between 0 and When Cos x = ½ x = arccos ½.

5.3 Solving Trigonometric Equations. What are two values of x between 0 and When Cos x = ½ x = arccos ½.
5.3 Solving Trigonometric Equations *use standard algebraic techniques to solve trig equations *solve trig equations in quadratic form *solve trig equations.

5.3 Solving Trigonometric Equations *use standard algebraic techniques to solve trig equations *solve trig equations in quadratic form *solve trig equations.
6.5.3 – Other Properties of Inverse Functions. Just like other functions, we need to consider the domain and range of inverse trig functions To help us.

6.5.3 – Other Properties of Inverse Functions. Just like other functions, we need to consider the domain and range of inverse trig functions To help us.
5.1 Trigonometric Functions of Acute Angles Fri Oct 17 Do Now Solve for x 1) 1^2 + x^2 = 2^2 2) x^2 + x^2 = 1.

5.1 Trigonometric Functions of Acute Angles Fri Oct 17 Do Now Solve for x 1) 1^2 + x^2 = 2^2 2) x^2 + x^2 = 1.
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.

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.

Warm Up Sign Up. AccPreCalc Lesson 27 Essential Question: How are trigonometric equations solved? Standards: Prove and apply trigonometric identities.
Sum and Difference Formulas New Identities. Cosine Formulas.

Sum and Difference Formulas New Identities. Cosine Formulas.
Using our work from the last few weeks,

Using our work from the last few weeks,
Class Work Find the exact value of cot 330

Class Work Find the exact value of cot 330
Warmup 9/30/15 To determine the shape of a conic function based on the equation pp 132: 4, 5, 7, 11 Objective Tonight’s Homework.

Warmup 9/30/15 To determine the shape of a conic function based on the equation pp 132: 4, 5, 7, 11 Objective Tonight’s Homework.
7.4.3 – Solving Quadratic Like Trig Equations, Application.

7.4.3 – Solving Quadratic Like Trig Equations, Application.
Values of the Trig Functions Reference angles and inverse functions (5.4)

Values of the Trig Functions Reference angles and inverse functions (5.4)
Inverse Trig Functions Objective: Evaluate the Inverse Trig Functions.

Inverse Trig Functions Objective: Evaluate the Inverse Trig Functions.
4.7 Inverse Trigonometric functions

4.7 Inverse Trigonometric functions
Solving Trig Equations Starter CStarter C Starter C SolutionsStarter C Solutions Starter DStarter D Starter D SolutionsStarter D Solutions.

Solving Trig Equations Starter CStarter C Starter C SolutionsStarter C Solutions Starter DStarter D Starter D SolutionsStarter D Solutions.
Solving for (3 Ways). Examples Without using a calculator, what angle(s) would satisfy the equation ?

Solving for (3 Ways). Examples Without using a calculator, what angle(s) would satisfy the equation ?
Warmup 11/9/15 Christians say that the Bible is the Word of God. What do you think this means? To learn more about graphing rational functions pp 219:

Warmup 11/9/15 Christians say that the Bible is the Word of God. What do you think this means? To learn more about graphing rational functions pp 219:
5.3 Solving Trigonometric Equations

5.3 Solving Trigonometric Equations
Pg. 407/423 Homework Pg. 407#33 Pg. 423 #16 – 18 all #19 Ѳ = kπ#21t = 0.52 + 2kπ, 2.62 + 2kπ #23 x = π/2 + 2kπ#25x = π/6 + 2kπ, 5π/6 + 2kπ #27 x = ±1.05.

Pg. 407/423 Homework Pg. 407#33 Pg. 423 #16 – 18 all #19 Ѳ = kπ#21t = kπ, kπ #23 x = π/2 + 2kπ#25x = π/6 + 2kπ, 5π/6 + 2kπ #27 x = ±1.05.

Similar presentations

Ads by Google