Presentation is loading. Please wait.

Presentation is loading. Please wait.

Vertex Form November 10, 2014 Page 34-35 in Notes.

Published byAbel Ross Modified over 9 years ago

Similar presentations

Presentation on theme: "Vertex Form November 10, 2014 Page 34-35 in Notes."— Presentation transcript:

1 Vertex Form November 10, 2014 Page 34-35 in Notes

2 Objective relate representations of quadratic functions, such as algebraic, tabular, graphical, and verbal descriptions[6.B]

3 Essential Question What parts of a quadratic function can I determine from the vertex form?

4 Vocabulary parabola: the shape of a quadratic function vertex: the highest or lowest point on a parabola y-intercept: the point where the graph crosses the y-axis x-intercepts: the points where the graph crosses the x-axis axis of symmetry: the vertical line that divides a parabola in two equal parts

5 Vertex Form f(x) = a(x – h) 2 + k – “a” reflection across the x-axis and/or vertical stretch or compression – “h” horizontal translation – “k”: vertical translation

6 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k h k Vertex: (h, k) Axis of symmetry: x = h y-intercept: (0, y)

7 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h k Vertex: (h, k) Axis of symmetry: x = h y-intercept: (0, y)

8 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h2 k Vertex: (h, k) Axis of symmetry: x = h y-intercept: (0, y)

9 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h2 k0 Vertex: (h, k) Axis of symmetry: x = h y-intercept: (0, y)

10 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h2 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h y-intercept: (0, y)

11 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h2 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h x = 2 y-intercept: (0, y)

12 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 h2 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h x = 2 y-intercept: (0, y) (0, 4)

13 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h x = 2 y-intercept: (0, y) (0, 4)

14 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2-3 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h x = 2 y-intercept: (0, y) (0, 4)

15 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2-3 k0 Vertex: (h, k) (2, 0) Axis of symmetry: x = h x = 2 y-intercept: (0, y) (0, 4)

16 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2-3 k0 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2 y-intercept: (0, y) (0, 4)

17 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2-3 k0 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)

18 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1 h2-3 k0 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)(0, 8)

19 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3 k0 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)(0, 8)

20 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3-2 k0 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)(0, 8)

21 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3-2 k04 Vertex: (h, k) (2, 0)(-3, -1) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)(0, 8)

22 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3-2 k04 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3 y-intercept: (0, y) (0, 4)(0, 8)

23 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3-2 k04 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)

24 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4 h2-3-2 k04 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

25 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2 k04 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

26 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2-3 k04 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

27 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2-3 k041 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

28 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2-3 k041 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4)(-3, 1) Axis of symmetry: x = h x = 2x = -3x = -2 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

29 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2-3 k041 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4)(-3, 1) Axis of symmetry: x = h x = 2x = -3x = -2x = -3 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)

30 What can we determine from the Vertex Form? Vertex Form: y=a(x-h) 2 + k y=(x–2) 2 y = (x+3) 2 – 1y= -3(x+2) 2 +4y= 2(x+3) 2 +1 h2-3-2-3 k041 Vertex: (h, k) (2, 0)(-3, -1)(-2, 4)(-3, 1) Axis of symmetry: x = h x = 2x = -3x = -2x = -3 y-intercept: (0, y) (0, 4)(0, 8)(0, -8)(0, 19)

31 To Graph from Vertex Form: 1.Identify the vertex and axis of symmetry and graph. 2.Find the y-intercept and graph along with its reflection. 3.Make a table (with the vertex in the middle) to calculate at least 5 points on the parabola.

32 Example 1 (Left Side): y = (x + 3) 2 - 1 h:_______ k:_______ vertex:__________ axis of symmetry: ___________ y-int: ________ xy -3(-3, -1) x = -3 y = (x + 3) 2 – 1 y = (0 + 3) 2 – 1 y = (3) 2 – 1 y = 9 – 1 y = 8 (0, 8) -3 -1 -4 0 -5 3 -2 0 -1 3

33 y = -3(x – 2) 2 + 4 y = -3(0 – 2) 2 + 4 y = -3(-2) 2 + 4 y = -3 4 + 4 y = -8 Example 2 (Left Side): y = -3(x – 2) 2 + 4 h:_______ k:_______ vertex:__________ axis of symmetry: ___________ y-int: ________ 24(2, 4) x = 2(0, -8) 2 4 1 1 0 -8 3 1 4 -8 xy

34 Assignment 1.f(x) = x 2 – 2 2.g(x) = -(x – 4) 2 3.h(x) = (x + 1) 2 – 3 4.j(x) = (x + 2) 2 + 2

35

36 Reflection 1.How do you know if a parabola will open upward or downward? 2.When does the parabola have a maximum point? 3.When does the parabola have a minimum point?

Download ppt "Vertex Form November 10, 2014 Page 34-35 in Notes."

Similar presentations

Chapter 9: Quadratic Equations and Functions Lesson 1: The Function with Equation y = ax 2 Mrs. Parziale.

Chapter 9: Quadratic Equations and Functions Lesson 1: The Function with Equation y = ax 2 Mrs. Parziale.
Section 8.6 Quadratic Functions & Graphs  Graphing Parabolas f(x)=ax 2 f(x)=ax 2 +k f(x)=a(x–h) 2 f(x)=a(x–h) 2 +k  Finding the Vertex and Axis of Symmetry.

Section 8.6 Quadratic Functions & Graphs  Graphing Parabolas f(x)=ax 2 f(x)=ax 2 +k f(x)=a(x–h) 2 f(x)=a(x–h) 2 +k  Finding the Vertex and Axis of Symmetry.
Graphing Quadratic Functions

Graphing Quadratic Functions
12-4 Quadratic Functions CA Standards 21.0 and 22.0 CA Standards 21.0 and 22.0 Graph quadratic functions; know that their roots are the x-intercepts; use.

12-4 Quadratic Functions CA Standards 21.0 and 22.0 CA Standards 21.0 and 22.0 Graph quadratic functions; know that their roots are the x-intercepts; use.
Chapter 5.1 – 5.3 Quiz Review Quizdom Remotes!!!.

Chapter 5.1 – 5.3 Quiz Review Quizdom Remotes!!!.
Quadratic Functions and their graphs Lesson 1.7

Quadratic Functions and their graphs Lesson 1.7
The vertex of the parabola is at (h, k).

The vertex of the parabola is at (h, k).
In Chapters 2 and 3, you studied linear functions of the form f(x) = mx + b. A quadratic function is a function that can be written in the form of f(x)

In Chapters 2 and 3, you studied linear functions of the form f(x) = mx + b. A quadratic function is a function that can be written in the form of f(x)
Warm Up Section 3.3 (1). Solve:  2x – 3  = 12 (2). Solve and graph:  3x + 1  ≤ 7 (3). Solve and graph:  2 – x  > 9 (4). {(0, 3), (1, -4), (5, 6),

Warm Up Section 3.3 (1). Solve:  2x – 3  = 12 (2). Solve and graph:  3x + 1  ≤ 7 (3). Solve and graph:  2 – x  > 9 (4). {(0, 3), (1, -4), (5, 6),
GRAPHING QUADRATIC FUNCTIONS VERTEX FORM Goal: I can complete the square in a quadratic expression to reveal the maximum or minimum value. (A-SSE.3b)

GRAPHING QUADRATIC FUNCTIONS VERTEX FORM Goal: I can complete the square in a quadratic expression to reveal the maximum or minimum value. (A-SSE.3b)
Give the coordinate of the vertex of each function.

Give the coordinate of the vertex of each function.
Graphing Quadratic Functions

Graphing Quadratic Functions
And the Quadratic Equation……

And the Quadratic Equation……
Topic: U2 L1 Parts of a Quadratic Function & Graphing Quadratics y = ax 2 + bx + c EQ: Can I identify the vertex, axis of symmetry, x- and y-intercepts,

Topic: U2 L1 Parts of a Quadratic Function & Graphing Quadratics y = ax 2 + bx + c EQ: Can I identify the vertex, axis of symmetry, x- and y-intercepts,
Warm-Up: you should be able to answer the following without the use of a calculator 2) Graph the following function and state the domain, range and axis.

Warm-Up: you should be able to answer the following without the use of a calculator 2) Graph the following function and state the domain, range and axis.
Table of Contents Graphing Quadratic Functions – Concept A simple quadratic function is given by The graph of a quadratic function in called a parabola.

Table of Contents Graphing Quadratic Functions – Concept A simple quadratic function is given by The graph of a quadratic function in called a parabola.
Copyright © 2014, 2010, 2007 Pearson Education, Inc. 1 1 Chapter 9 Quadratic Equations and Functions.

Copyright © 2014, 2010, 2007 Pearson Education, Inc. 1 1 Chapter 9 Quadratic Equations and Functions.
Graphs of Quadratic Function Introducing the concept: Transformation of the Graph of y = x 2.

Graphs of Quadratic Function Introducing the concept: Transformation of the Graph of y = x 2.
The General Quadratic Function Students will be able to graph functions defined by the general quadratic equation.

The General Quadratic Function Students will be able to graph functions defined by the general quadratic equation.
Graphing Quadratic Functions Algebra II 3.1. TERMDefinitionEquation Parent Function Quadratic Function Vertex Axis of Symmetry y-intercept Maximum Minimum.

Graphing Quadratic Functions Algebra II 3.1. TERMDefinitionEquation Parent Function Quadratic Function Vertex Axis of Symmetry y-intercept Maximum Minimum.

Similar presentations

Ads by Google