1. Use Absolute Value Functions and Transformations
Section 2.7:
Use Absolute Value
Functions and Transformations

2. In section 1.7, you learned that the absolute value of a real number x is defined as follows: |x| = {x, if x is positive; 0, if x = 0; -x, if x is negative} You can also define an absolute value function f(x) = |x|.

3. Parent Function for Absolute Value Functions
The parent function for the family of all absolute value functions is f(x) = |x|. The graph of f(x) = |x| is V-shaped and is symmetric about the y-axis. So, for every point (x, y) on the graph, the point (-x, y) is also on the graph. The highest or lowest point on the graph of an absolute value function is called the vertex. The vertex of the graph f(x) = |x| is 0.

4. Absolute Value Graph

5. You can derive new absolute value functions from the parent function through transformations of the parent graph. Transformation – changes a graph’s size, shape, position, or orientation. Translation – a transformation that shifts a graph horizontally and/or vertically, but does not change its size, shape, or orientation.

6. The graph of y = |x – h| + k is the graph of y = |x| translated h units horizontally and k units vertically. The vertex of y = |x – h| + k is (h, k).

7. Stretches, Shrinks, and Reflections
When |a| ≠ 1, the graph of y = a|x| is a vertical stretch or a vertical shrink of the graph of y = |x|, depending on whether |a| is less than or greater than 1.

8. For |a| > 1 The graph is vertically stretched, or elongated.
The graph of y = a|x| is narrower than the graph of y = |x|.

9. For |a| < 1 The graph is vertically shrunk, or compressed.
The graph of y = a|x| is wider than the graph of y = |x|.

10. When a = -1, the graph of y = a|x| is a reflection in the x-axis of the graph of y = |x|. When a < 0 but a ≠ -1, the graph of y = a|x| is a vertical stretch or shrink with a reflection in the x-axis of the graph of y = |x|.

11. Transformations of General Graphs
The graph of y = a ∙ f(x – h) + k can be obtained
from the graph of any function y = f(x) by
performing these steps.
Stretch or shrink the graph of y = f(x) vertically by a factor of |a| if |a| ≠ 1. If
|a| > 1, stretch the graph. If |a| < 1, shrink the graph.

12. Reflect the resulting graph from step 1 in the x-axis if a < 0.
Translate the resulting graph from step 2 horizontally h units and vertically k units.

13. Example 1: Graph y = |x – 1| + 3
Example 1: Graph y = |x – 1| + 3. k = 3 (move up 3 units) h = 1 (move right 1 unit)

14. Example 2: Graph and Shrink vertically by a factor of 1/3
Example 2: Graph and Shrink vertically by a factor of 1/3. Stretch vertically by a factor of 2 and then reflect over the x-axis.

15. Example 3: Graph Shrink vertically by a scale factor of ¼ Translate down 2 Translate left 3

16. Example 4: Write the equation of the graph
Example 4: Write the equation of the graph. a) b) y = |x| + 1 y = |x| - 2

17. c) y = |x + 5| + 3 d) y = -|x + 4| - 3

18. e) y = 2| x - 1| - 4 f) y = - | x + 2| + 3

19. HOMEWORK
pg. 127 – 128; 3 – 10, 15 – 20