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4.1 quadratic functions and transformations

This document discusses quadratic functions and transformations. It defines key terms like parabola, vertex, and axis of symmetry. It explains how the a value in the vertex form y=a(x-h)^2+k determines if a parabola is vertically stretched or compressed. It also states that if a is negative, the graph is reflected over the x-axis. The minimum or maximum value of a quadratic is always the y-coordinate of the vertex. The document provides examples of graphing and writing quadratic functions using vertex form.

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CHAPTER 4 QUADRATIC FUNCTIONS AND EQUATIONS 4.1 Quadratic Functions and Transformations
DEFINITIONS  A parabola is the graph of a quadratic function.  A parabola is a “U” shaped graph  The parent Quadratic Function is
DEFINITIONS  The vertex form of a quadratic function makes it easy to identify the transformations  The axis of symmetry is a line that divides the parabola into two mirror images (x = h)  The vertex of the parabola is (h, k) and it represents the intersection of the parabola and the axis of symmetry.
REFLECTION, STRETCH, AND COMPRESSION  Working with functions of the form  The determines the “width” of the parabola  If the the graph is vertically stretched (makes the “U” narrow)  If the graph is vertically compressed (makes the “U” wide)  If a is negative, the graph is reflected over the x– axis
MINIMUM AND MAXIMUM VALUES  The minimum value of a function is the least y – value of the function; it is the y – coordinate of the lowest point on the graph.  The maximum value of a function is the greatest y – value of the function; it is the y – coordinate of the highest point on the graph.  For quadratic functions the minimum or maximum point is always the vertex, thus the minimum or maximum value is always the y – coordinate of the vertex
TRANSFORMATIONS – USING VERTEX FORM 
TRANSFORMATIONS – USING VERTEX FORM Graphing Quadratic Functions: 1. Identify and Plot the vertex and axis of symmetry 2. Set up a Table of Values. Choose x – values to the right and left of the vertex and find the corresponding y – values Note: a is NOT slope 3. Plot the points and sketch the parabola
EXAMPLE: GRAPH EACH FUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
EXAMPLE: GRAPH EACH FUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
EXAMPLE: GRAPH EACH FUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
EXAMPLE: GRAPH EACH FUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
TRANSFORMATIONS – USING VERTEX FORM Writing the equations of Quadratic Functions: 1. Identify the vertex (h, k) 2. Choose another point on the graph (x, y) 3. Plug h, k, x, and y into and solve for a 4. Use h, k, and a to write the vertex form of the quadratic function
EXAMPLE: WRITE A QUADRATIC FUNCTION TO MODEL EACH GRAPH
EXAMPLE: WRITE A QUADRATIC FUNCTION TO MODEL EACH GRAPH
HOMEWORK  Page 199  #9, 15 – 18 all  #27 – 33 odd: Graph each function. Identify the vertex, axis of symmetry, the maximum or minimum value, and the domain and range.  #35 – 37all, 41

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4.1 quadratic functions and transformations

  • 1.
    CHAPTER 4 QUADRATICFUNCTIONS AND EQUATIONS 4.1 Quadratic Functions and Transformations
  • 2.
    DEFINITIONS  A parabola is the graph of a quadratic function.  A parabola is a “U” shaped graph  The parent Quadratic Function is
  • 3.
    DEFINITIONS  The vertex form of a quadratic function makes it easy to identify the transformations  The axis of symmetry is a line that divides the parabola into two mirror images (x = h)  The vertex of the parabola is (h, k) and it represents the intersection of the parabola and the axis of symmetry.
  • 4.
    REFLECTION, STRETCH, ANDCOMPRESSION  Working with functions of the form  The determines the “width” of the parabola  If the the graph is vertically stretched (makes the “U” narrow)  If the graph is vertically compressed (makes the “U” wide)  If a is negative, the graph is reflected over the x– axis
  • 5.
    MINIMUM AND MAXIMUMVALUES  The minimum value of a function is the least y – value of the function; it is the y – coordinate of the lowest point on the graph.  The maximum value of a function is the greatest y – value of the function; it is the y – coordinate of the highest point on the graph.  For quadratic functions the minimum or maximum point is always the vertex, thus the minimum or maximum value is always the y – coordinate of the vertex
  • 6.
  • 7.
    TRANSFORMATIONS – USINGVERTEX FORM Graphing Quadratic Functions: 1. Identify and Plot the vertex and axis of symmetry 2. Set up a Table of Values. Choose x – values to the right and left of the vertex and find the corresponding y – values Note: a is NOT slope 3. Plot the points and sketch the parabola
  • 8.
    EXAMPLE: GRAPH EACHFUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
  • 9.
    EXAMPLE: GRAPH EACHFUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
  • 10.
    EXAMPLE: GRAPH EACHFUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
  • 11.
    EXAMPLE: GRAPH EACHFUNCTION. DESCRIBE HOW IT WAS TRANSLATED FROM
  • 12.
    TRANSFORMATIONS – USINGVERTEX FORM Writing the equations of Quadratic Functions: 1. Identify the vertex (h, k) 2. Choose another point on the graph (x, y) 3. Plug h, k, x, and y into and solve for a 4. Use h, k, and a to write the vertex form of the quadratic function
  • 13.
    EXAMPLE: WRITE AQUADRATIC FUNCTION TO MODEL EACH GRAPH
  • 14.
    EXAMPLE: WRITE AQUADRATIC FUNCTION TO MODEL EACH GRAPH
  • 15.
    HOMEWORK  Page 199 #9, 15 – 18 all  #27 – 33 odd: Graph each function. Identify the vertex, axis of symmetry, the maximum or minimum value, and the domain and range.  #35 – 37all, 41