First part is out of 70 pts. Second part is out of 35 pts.

Slides:

Advertisements

Similar presentations

1.4 – Shifting, Reflecting, and Stretching Graphs

Advertisements

Power Functions Def. A power function is of the form where k and p are constant. Exponential functions dominate power functions as x. Ex.

Chapter 3: Transformations of Graphs and Data

Chapter 1 Functions and Their Graphs

1 Transformations of Functions SECTION Learn the meaning of transformations. Use vertical or horizontal shifts to graph functions. Use reflections.

Section 1.6 Transformation of Functions

Graph an equation in standard form

Precalculus Transformation of Functions Objectives Recognize graphs of common functions Use shifts to graph functions Use reflections to graph.

Copyright © Cengage Learning. All rights reserved. 1 Functions and Their Graphs.

Combinations of Functions & Inverse Functions Obj: Be able to work with combinations/compositions of functions. Be able to find inverse functions. TS:

Math 71B 9.2 – Composite and Inverse Functions 1.

Copyright © 2011 Pearson, Inc. 1.6 Graphical Transformations.

Graphing Absolute Value Without a Calculator Objective: You should be able to graph absolute value functions (including their changes) without a calculator.

Transformation of Functions Sec. 1.7 Objective You will learn how to identify and graph transformations.

1.3 Combining Transformations

Section 1.4 Transformations and Operations on Functions.

Section 2.6 Inverse Functions. Definition: Inverse The inverse of an invertible function f is the function f (read “f inverse”) where the ordered pairs.

1 PRECALCULUS Section 1.6 Graphical Transformations.

ODD FUNCTIONS What is their common characteristic? They have point symmetry about the origin.

OBJECTIVES:  Find inverse functions and verify that two functions are inverse functions of each other.  Use graphs of functions to determine whether.

© The Visual Classroom 3.7 Transformation of Functions Given y = f(x), we will investigate the function y = af [k(x – p)] + q for different values of a,

Lesson 1.4 Read: Pages Page 48: #1-53 (EOO).

Essential Question: How do you write and sketch an equation of a function based on the parent graph? Students will write a comparison of the equation of.

Algebra 2 Discuss: What does Algebra mean to you?

Objectives: To find inverse functions graphically & algebraically.

New Functions from Old Section 1.3.

Transformations of Functions

Copyright © Cengage Learning. All rights reserved.

2.4 Transformations of Functions

Transformations of Functions

2.6 Families of Functions Learning goals

Inverse Functions Algebra III, Sec. 1.9 Objective

DO NOW: Perform the indicated operation.

Transformation of Functions

Copyright © Cengage Learning. All rights reserved.

Parent Functions and Transformations

2.6 Translations and Families of Functions

Sum, Difference, Product, Quotient, Composition and Inverse

Chapter 2: Analysis of Graphs of Functions

Section 2.5 Transformations.

7.4 Inverses of Functions.

Functions Review.

Inverse Relations and Functions

Inverse Functions.

Section 1.5 Inverse Functions

Transformations of curves

Transformation of Functions

Graphical Transformations

Section 1.6 Transformation of Functions

Warm-up: Welcome Ticket

Copyright © Cengage Learning. All rights reserved.

Transformation rules.

1.5b Combining Transformations

Composite functions.

2-6 Families of Functions

Transformations of Functions

Copyright © Cengage Learning. All rights reserved.

1-10 Matching *definitions (4) and the different types of basic graphs (6) *make sure you know the difference between a relation and a function* *make.

Chapter 2: Analysis of Graphs of Functions

Warm Up #8 Sketch the graphs of: 1.

1.6 Inverse Functions.

The Absolute Value Function

The graph below is a transformation of which parent function?

1.6 Inverse Functions.

Lesson 5-5: Inverse Functions and Relations

Packet #12 Composite, One-to-one, and Inverse Functions

Parent Functions and Transformations

1.3 Combining Transformations

Presentation transcript:

First part is out of 70 pts. Second part is out of 35 pts. Total points possible is 105 pts.  Grade is out of 100 pts.

Transformations We're going to take the functions from last class and alter them to get new ones Ex. Compare y = x2 and y = x2 + 2

Ex. Compare y = x2 and y = (x + 2)2

Ex. Use the graph of f (x) = x3 to sketch: a. f (x) = x3 – 1 b. f (x) = (x + 2)3 + 1

Ex. Given the graph of y = x 4 below, identify the equation of the second graph.

Ex. Use the graph of below to describe and draw the graph of:

Multiplying by a number will cause a stretch or shrink This is called a nonrigid transformation You could memorize what each does, but it's easier to figure it out by plugging in numbers.

Ex. Use the graph of below to draw the graph of:

Practice Problems Section 2.5 Problems 1, 9, 19, 27

Composite Functions This means combining two functions to get a new function. Ex. Let f (x) = 2x – 3 and g(x) = x2 – 1, find a) ( f + g)(x) b) ( f g)(x) c)

Ex. Let f (x) = 2x + 1 and g(x) = x2 + 2x – 1, find ( f – g)(2).

means Ex. Given f (x) = x + 2 and g(x) = 4 – x2 a) b)

Ex. Write as the composition of two functions.

Practice Problems Section 2.6 Problems 13, 31, 35, 47

Inverse Functions Ex. Make t-charts for f (x) = x + 4 and g(x) = x – 4.

Two functions are inverses if the roles of x and y are switched. Ex. If , find f -1(x). An inverse function doesn't always exist, and you won't always be able to solve for y

Ex. For the previous example, find ( f -1∘ f )(x). For any function, ( f -1∘ f )(x) = x

Ex. Show that and are inverses.

Because the x 's and y 's are switched, the graphs of f and f -1 are reflected over the line y = x. Ex. Given the graph of f (x) below, sketch f -1.

and y = x2 are not inverses. - Consider the graphs

A function is one-to-one if each y-coordinate corresponds to exactly one x-coordinate

These graphs pass the horizontal line test A function is invertible (it has an inverse) if it passes the horizontal line test

Ex. Are these functions invertible? Even if the function is invertible, you still may not be able to find an equation.

Practice Problems Section 2.7 Problems 15, 17, 29, 55