Presentation is loading. Please wait.

Presentation is loading. Please wait.

3.4 Graphing Techniques; Transformations. (0, 0) (1, 1) (2, 4) (0, 2) (1, 3) (2, 6)

Published byLetitia Hodge Modified over 8 years ago

Similar presentations

Presentation on theme: "3.4 Graphing Techniques; Transformations. (0, 0) (1, 1) (2, 4) (0, 2) (1, 3) (2, 6)"— Presentation transcript:

1 3.4 Graphing Techniques; Transformations

2

3 (0, 0) (1, 1) (2, 4) (0, 2) (1, 3) (2, 6)

4

5 (0, 0) (1, 1) (2, 4) (0, -3) (1, -2) (2, 1)

6 Vertical Shifts c>0 The graph of f(x)+c is the same as the graph of f(x) but shifted UP by c. For example: c = 2 then f(x)+2 shifts f(x) up by 2. c<0 The graph of f(x)+c is the same as the graph of f(x) but shifted DOWN by c. For example: c = -3 then f(x)+(-3) = f(x)-3 shifts f(x) down by 3.

7

8

9 Horizontal Shifts If the argument x of a function f is replaced by x-h, h a real number, the graph of the new function y = f(x-h) is the graph of f shifted horizontally left (if h 0).

10

11

12 Reflections about the x-Axis and the y-Axis The graph of g= - f(x) is the same as graph of f(x) but reflected about the x-axis. The graph of g= f(-x) is the same as graph of f(x) but reflected about the y-axis.

13

14

15

16

17

18

19 Compression and Stretches The graph of y=af(x) is obtained from the graph of y=f(x) by vertically stretching the graph if a > 1 or vertically compressing the graph if 0 < a < 1. The graph of y=f(ax) is obtained from the graph of y=f(x) by horizontally compressing the graph if a > 1 or horizontally stretching the graph if 0 < a < 1.

20

Download ppt "3.4 Graphing Techniques; Transformations. (0, 0) (1, 1) (2, 4) (0, 2) (1, 3) (2, 6)"

Similar presentations

Objective Transform polynomial functions..

Objective Transform polynomial functions..
Transformation of Functions Section 1.6. Objectives Describe a transformed function given by an equation in words. Given a transformed common function,

Transformation of Functions Section 1.6. Objectives Describe a transformed function given by an equation in words. Given a transformed common function,
Section 1.6 Transformation of Functions

Section 1.6 Transformation of Functions
Essential Question: In the equation f(x) = a(x-h) + k what do each of the letters do to the graph?

Essential Question: In the equation f(x) = a(x-h) + k what do each of the letters do to the graph?
CN College Algebra Ch. 2 Functions and Their Graphs 2.5: Graphing Techniques: Transformations Goals: Graph functions using horizontal and vertical shifts.

CN College Algebra Ch. 2 Functions and Their Graphs 2.5: Graphing Techniques: Transformations Goals: Graph functions using horizontal and vertical shifts.
Table of Contents Functions: Transformations of Graphs -6 -5 -4 -3 -2 0 1 2 3 4 5 6 -5-4-3-2123456 Vertical Translation: The graph of f(x) + k appears.

Table of Contents Functions: Transformations of Graphs Vertical Translation: The graph of f(x) + k appears.
Transformations of the Parent Functions. What is a Parent Function A parent function is the most basic version of an algebraic function.

Transformations of the Parent Functions. What is a Parent Function A parent function is the most basic version of an algebraic function.
Section 1.7 Symmetry & Transformations

Section 1.7 Symmetry & Transformations
Section 3.2 Notes Writing the equation of a function given the transformations to a parent function.

Section 3.2 Notes Writing the equation of a function given the transformations to a parent function.
Transformations xf(x) Domain: Range:. Transformations Vertical Shifts (or Slides) moves the graph of f(x) up k units. (add k to all of the y-values) moves.

Transformations xf(x) Domain: Range:. Transformations Vertical Shifts (or Slides) moves the graph of f(x) up k units. (add k to all of the y-values) moves.
1 The graphs of many functions are transformations of the graphs of very basic functions. The graph of y = –x 2 is the reflection of the graph of y = x.

1 The graphs of many functions are transformations of the graphs of very basic functions. The graph of y = –x 2 is the reflection of the graph of y = x.
Determine whether a graph is symmetric with respect to the x-axis, the y-axis, and the origin. Determine whether a function is even, odd, or neither even.

Determine whether a graph is symmetric with respect to the x-axis, the y-axis, and the origin. Determine whether a function is even, odd, or neither even.
College Algebra 2.7 Transformations.

College Algebra 2.7 Transformations.
Shifting Graphs Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 The graphs of many functions are transformations.

Shifting Graphs Digital Lesson. Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2 The graphs of many functions are transformations.
2.6 – Transformations of Graphs

2.6 – Transformations of Graphs
1.6 PreCalculus Parent Functions Graphing Techniques.

1.6 PreCalculus Parent Functions Graphing Techniques.
6-8 Graphing Radical Functions

6-8 Graphing Radical Functions
Parent Functions General Forms Transforming linear and quadratic function.

Parent Functions General Forms Transforming linear and quadratic function.
2.7 Graphing Absolute Value Functions The absolute value function always makes a ‘V’ shape graph.

2.7 Graphing Absolute Value Functions The absolute value function always makes a ‘V’ shape graph.
1.2: Functions and Graphs. Relation- for each x value, there can be any y-values. Doesn’t pass the VLT. (ex. (1,2), (2,4), (1,-3) Function- For each x-value,

1.2: Functions and Graphs. Relation- for each x value, there can be any y-values. Doesn’t pass the VLT. (ex. (1,2), (2,4), (1,-3) Function- For each x-value,

Similar presentations

Ads by Google