Graphing Absolute Value Functions

Slides:



Advertisements
Similar presentations
2.5 Absolute Value Functions and Graphs
Advertisements

Graphing Absolute Value Functions Section 2.6 in your textbook.
QUADTRATIC RELATIONS Standard Form.
WARM-UP: DISCUSS WITH YOUR PARTNER 1 Consider the function y = 3x 2 – 6x + 2. a)Does the graph open up or down? b)Find the line of symmetry of the graph.
EXAMPLE 1 Graph a function of the form y = ax 2 Graph y = 2x 2. Compare the graph with the graph of y = x 2. SOLUTION STEP 1 Make a table of values for.
2.5 Absolute Value Functions and Graphs Graphing Absolute Value Functions.
Linear Equation: an equation whose graph forms a line. is linear. is not. In linear equations, all variables are taken to the first power. Linear means.
Quadraticsparabola (u-shaped graph) y = ax2 y = -ax2 Sketching Quadratic Functions A.) Opens up or down: 1.) When "a" is positive, the graph curves upwards.
6.5 Finding AOS and Y Intercept AOS: -b/2a Y Intercept: C.
10.1 Graphing Quadratic Functions p. 17. Quadratic Functions Definition: a function described by an equation of the form f(x) = ax 2 + bx + c, where a.
3. Graph Quadratic Functions in Standard Form 3.1 Graph Quadratic Functions in Standard Form WEDNESDAY JAN 26 TH p. 56.
Warmup 9-11 Solve the following equations by factoring. Show work! 1.x x - 80 = 0 2.Solve by using the quadratic formula: 4x 2 - 5x - 2 = 0 3.Solve.
9.3 Graphing Quadratic Functions
Graphing Quadratic Equations
GRAPHING QUADRATIC FUNCTIONS
4.1 Graph Quadratic Functions in Standard Form
Graphing Quadratic Functions y = ax 2 + bx + c. Quadratic Functions The graph of a quadratic function is a parabola. A parabola can open up or down. If.
9.1 – Graphing Quadratic Functions. Ex. 1 Use a table of values to graph the following functions. a. y = 2x 2 – 4x – 5.
Notes Over 2.8 Graphing an Absolute Value Function xy Vertex: Axis of Symmetry: Slope: ( 1, 2 ) x = 1 up 2, right/left.
WARM UP What is the x-coordinate of the vertex? 1.y = -2x 2 + 8x – 5 2.y = x 2 + 3x -2 4.
9-3 Graphing y = ax + bx + c 2 1a. y = x - 1 for -3
WARM-UP: Graphing Using a Table x y = 3x  2 y -2 y = 3(-2)  2 -8 y = 3(-1)  y = 3(0)  y = 3(1)  y = 3(2)  2 4 GRAPH. y = 3x 
How does the value of a affect the graphs?
Section 2-5: Absolute Value Functions and Graphs Objective: To graph absolute value functions.
10-2 Graphing Quadratic Functions. Quadratic Functions (y = ax 2 +bx+c) When a is positive, When a is negative, When c is positive When c is negative.
Goal: I can graph quadratic functions and show intercepts, maxima and minima. (F-IF.7a) Graphing Quadratic Functions in Standard Form.
Graphing Quadratic Functions Quadratic functions have the form: y = ax 2 + bx + c When we graph them, they make a parabola!
Equation for a Vertical Line and a Horizontal Line
9.4 the Quadratic Formula Earlier we looked at how to solve quadratic equations in the form of ax2 + c = 0 by taking the square root. We are going to.
10 Quadratic Equations 10.
9.3 Graphing Quadratic Functions
Graphing Quadratic Functions
2.8 Absolute Value Functions
Unit 7 Quadratics Graphing Quadratic Functions
2-5 Absolute Value Functions and Graphs
2.7 Absolute Value Functions and Graphs
2.1: Graphing Absolute Value Functions
Graphing Absolute Value Equations in two variables
4.2 Graph Quadratic Functions in Vertex or Intercept Form
Graphing Quadratic Functions
(x2,y2) (3,2) (x1,y1) (-4,-2).
Graphing Linear Equations
Graph Absolute Value Equations
parabola up down vertex Graph Quadratic Equations axis of symmetry
Graphing Quadratic Functions
Finding the Midpoint To discover the coordinates of the midpoint of a segment in terms of those of its endpoints To use coordinates of the midpoint of.
Label your paper DNA 1 WARM UP….
2.5 Linear Equations.
Find the x-coordinate of the vertex
Graphing Quadratic Functions
ABSOLUTE VALUE September 7, 2016.
y x y = x + 2 y = x + 4 y = x – 1 y = -x – 3 y = 2x y = ½x y = 3x + 1
Warm - up Write the equation in vertex form..
Write the equation for the following slope and y-intercept:
4.3 Graphing Equations of Lines From Intercepts
3.4 Standard form.
The equation of a circle is based on the Distance Formula and the fact that all points on a circle are equidistant from the center.
CHAPTER TWO: LINEAR EQUATIONS AND FUNCTIONS
Name:___________________________ Date:______________
Graphing Quadratics of ax2 +bx + c
y x y = x + 2 y = x + 4 y = x – 1 y = 6x – 3 y = 2x y = ½x y = 3x + 1
Graphing Quadratic Equations
Learning Target #21 Equations of Circles.
Graphing Linear Equations
Graphing Absolute Value Functions
L5-7 Objective: Students will be able to solve quadratics by using the quadratic formula.
Graphing Absolute Value Functions
9.4 Absolute Value Functions and Graphs
9-3 Graphing y = ax + bx + c up 1a. y = x - 1 for -3<x<3
Presentation transcript:

Graphing Absolute Value Functions

Absolute Value Function Formula y = A|x-B|+C When using this formula, the vertex point of an absolute value function is (B, C).

Find the vertex point of these absolute value functions: y = 3|x-6|+5 y = -2|x+4|-7 y = |-x|+2 y = |-x-1| y = |x| (6, 5) (-4, -7) (0, 2) (1, 0) (0, 0)

Graphing with a Table: (4, 2) Graph the function: y = 2|x-4|+2 Step 1: Find the vertex point. Step 2: Make a table where the vertex point is the middle value. Step 3: Fill in the table. Step 4: Plot the points. (4, 2) X Y 2 2|2-4|+2 = 6 3 2|3-4|+2 = 4 4 5 2|5-4|+2 = 4 6 2|6-4|+2 = 6

Graphing with the equation Graph the function: y = 3|x+1|-4 Step 1: Find the vertex point. Step 2: Plot the vertex point. Step 3: Use “m” of the equation to move to the next point. Step 4: Go back to the vertex point. Step 5: Use “-m” of the equation to move to the next point. Step 6: Connect the dots. (-1, -4)