Presentation is loading. Please wait.

Presentation is loading. Please wait.

THE RECIPROCAL FUNCTION FAMILY Section 9.2. PA Assessment Standard Match the graph of a given function to its table or equation.

Published byRose Kelly Modified over 8 years ago

Similar presentations

Presentation on theme: "THE RECIPROCAL FUNCTION FAMILY Section 9.2. PA Assessment Standard Match the graph of a given function to its table or equation."— Presentation transcript:

1 THE RECIPROCAL FUNCTION FAMILY Section 9.2

2 PA Assessment Standard Match the graph of a given function to its table or equation.

3 LEQ How do you graph a translation of an inverse variation graph?

4 Using Graphs of Inverse Variations: Definition 1: Functions that model inverse variations belong to a family whose parent is the reciprocal function. Definition 2: The graph below shows the function y = 5/x. Notice that the graph has two parts. Each part is called a branch. Definition 3: The vertical asymptote of a graph are lines the graph approaches.

5 Using Graphs of Inverse Variations: What is the equation of the vertical asymptote? What is the equation of the horizontal asymptote? Graph y = 1/x. Sketch the graph. Clear your screen and graph y = -1/x. Sketch the graph. Compare the two sketches. How does the negative sign affect the graph? Describe the asymptotes of the two graphs. Graph y = 1/x 2. Sketch the graph. Compare the sketch with the graph of y = 1/x from part iii. How does squaring x affect the graph? Describe the asymptotes of the two graphs.

6 Example 1: Relating to the Real World: Music: A musical pitch is measured in vibrations per second, or Hertz (Hz). The pitch y produced by a panpipe varies inversely with the length of the pipe x, measured in feet. The equation y = 564/x models the inverse variation. Find the length of the pipe that produces a pitch of 277 Hz.  Pitches of 247 Hz, 311 Hz, and 370 Hz form a musical chord. Find the length of pipe that will produce each pitch.  The asymptotes of y = 264/x are x = 0 and y = 0. Explain why this makes sense in terms of the panpipe.

7 Graphing Translations of Inverse Variation: The graphs below show the function y = 4/x, y = 4/x + 2, and y = 4/x – 4. What is the vertical asymptote of each graph? The horizontal asymptote? How are the graphs of y = 4/x and y = 4/x + c related?

8 Graphing Translations of Inverse Variation: The graphs below show the functions y = 4/x, y = 4/(x – 2), and y = 4/(x + 4). What is the vertical asymptote of each graph? The horizontal asymptote? How are the graphs of y = 4/x and y = 4/(x – b) related?

9 Translation of Inverse Variation: The graph of y = k/(x – b) + c is a translation of y = k/x that has moved b units horizontally and c unit vertically. It has a vertical asymptote at x = b and a horizontal asymptote at y = c.

10 Examples 2 - 7 Sketch the graphs of the following functions. Identify the vertical and horizontal asymptotes.

11 Example 8: Writing Equations: Write an equation for a translation of y = 5/x that has asymptotes at x = -2 and y = 3.

12 TOTD Sketch the asymptotes and the graph of the following equation.

Download ppt "THE RECIPROCAL FUNCTION FAMILY Section 9.2. PA Assessment Standard Match the graph of a given function to its table or equation."

Similar presentations

A rational function is a function whose rule can be written as a ratio of two polynomials. The parent rational function is f(x) = . Its graph is a.

A rational function is a function whose rule can be written as a ratio of two polynomials. The parent rational function is f(x) = . Its graph is a.
Graph of Exponential Functions

Graph of Exponential Functions
Operations on Functions and Analyzing Graphs

Operations on Functions and Analyzing Graphs
The Reciprocal Function Family and rational functions and their graphs

The Reciprocal Function Family and rational functions and their graphs
Transforming reciprocal functions. DO NOW Assignment #59  Pg. 503, #11-17 odd.

Transforming reciprocal functions. DO NOW Assignment #59  Pg. 503, #11-17 odd.
Create a table and Graph:. Reflect: Continued x-intercept: y-intercept: Asymptotes: xy -31/3 -21/2 1 -1/22 xy 1/2-2 1 2-1/2 3-1/3.

Create a table and Graph:. Reflect: Continued x-intercept: y-intercept: Asymptotes: xy -31/3 -21/2 1 -1/22 xy 1/ /2 3-1/3.
Apply rules for transformations by graphing absolute value functions.

Apply rules for transformations by graphing absolute value functions.
 Inverse Variation Function – A function that can be modeled with the equation y = k/x, also xy = k; where k does not equal zero.

 Inverse Variation Function – A function that can be modeled with the equation y = k/x, also xy = k; where k does not equal zero.
Warm Up #5.

Warm Up #5.
Lesson 28 – Radical Functions Math 2 Honors - Santowski.

Lesson 28 – Radical Functions Math 2 Honors - Santowski.
Asymptotes Objective: -Be able to find vertical and horizontal asymptotes.

Asymptotes Objective: -Be able to find vertical and horizontal asymptotes.
3-3:Rational Functions English Casbarro Unit 3: Rational Functions.

3-3:Rational Functions English Casbarro Unit 3: Rational Functions.
Graphing Reciprocal Functions

Graphing Reciprocal Functions
Ch. 9.2 Graphing Inverse Variations

Ch. 9.2 Graphing Inverse Variations
THE HYPERBOLA. A hyperbola is the collection of all points in the plane the difference of whose distances from two fixed points, called the foci, is a.

THE HYPERBOLA. A hyperbola is the collection of all points in the plane the difference of whose distances from two fixed points, called the foci, is a.
Warm Up 1)Suppose y varies inversely with x, Write an equation that includes the point (4,2) 2)The length of a violin string varies inversely as the frequency.

Warm Up 1)Suppose y varies inversely with x, Write an equation that includes the point (4,2) 2)The length of a violin string varies inversely as the frequency.
3-2 Families of Graphs Pre Calc A. Parent Graphs.

3-2 Families of Graphs Pre Calc A. Parent Graphs.
 Direct Variation Function – A function that can be modeled with the equation y = kx.

 Direct Variation Function – A function that can be modeled with the equation y = kx.
Translations Translations and Getting Ready for Reflections by Graphing Horizontal and Vertical Lines.

Translations Translations and Getting Ready for Reflections by Graphing Horizontal and Vertical Lines.
EXAMPLE 7 Graph logarithmic functions Graph the function. SOLUTION a.y = 3 log x Plot several convenient points, such as (1, 0), (3, 1), and (9, 2). The.

EXAMPLE 7 Graph logarithmic functions Graph the function. SOLUTION a.y = 3 log x Plot several convenient points, such as (1, 0), (3, 1), and (9, 2). The.

Similar presentations

Ads by Google