Graphing Absolute Value Equations

Graphing Absolute Value Equations Using your graphing calculator graph the parent function: What is the y-intercept? (0, 0) What is the x-intercept? (0,0)

Graphing Absolute Value Equations • Keeping the parent graph in the calculator, graph • How has the graph changed? • It has become steeper when compared to the parent graph. • Have the intercepts changed? • No, the x-intercept and y-intercept are the same as the parent graph.

Graphing Absolute Value Equations • Delete and graph • How has the graphed changed? • It has become flatter when compared to the parent graph. • Have the intercepts changed? • No, the x-intercept and y-intercept are the same as the parent graph.

Graphing Absolute Value Equations • What happens when you multiply the absolute value expression by a given factor . • The graph becomes steeper (or is narrower) when or becomes flatter (or is wider) when • The intercepts of the graph do not change when being compared to the parent graph.

Graphing Absolute Value Equations • What if the value of is negative? • Graph this equation: • What happened? • The graph opened downward instead of upward. • This is called a reflection. • If , there is no reflection • If , there is a reflection

Graphing Absolute Value Equations • Keeping the parent graph in your calculator, enter this equation: • How has the graph changed? • It has shifted horizontally (called a phase shift) two units to the right. • How have the intercepts changed? • The y-intercept has shifted to (0, 2) • The x-intercept has shifted to (2, 0)

Graphing Absolute Value Equations • Delete the previous equation and enter this equation: • How has the graph changed? • It has shifted horizontally (called a phase shift) four units to the left. • How have the intercepts changed? • The y-intercept has shifted to (0, 4) • The x-intercept has shifted to (-4, 0)

Graphing Absolute Value Equations • What happens when you subtract a number inside the absolute value symbol • If , then the graph is shifted horizontally to the right (called a phase shift) • If , then the graph is shifted horizontally to the left (called a phase shift) • The y-intercept changes by the and the x-intercept changes by the given value.

Graphing Absolute Value Equations • Keep the parent graph, delete the previous equation and enter this equation into the calculator: • How has the graphed changed? • The graph has been translated down 1 units (called a vertical shift) • How have the intercepts changed? • The y-intercept has shifted to (0, -1) • There are now 2 x-intercepts (-1, 0) and (1, 0)

Graphing Absolute Value Equations • Delete the previous equation and enter this equation: • How has the graph changed? • The graph has been translated up 3 units (called a vertical shift) • How have the intercepts changed? • The y-intercept has shifted to (0, 3) • There are no x-intercepts

Graphing Absolute Value Equations • How does adding or subtracting a number outside the absolute value symbol affect the graph • If , the graph is translated up (called a vertical shift) • If , the graph is translated down (called a vertical shift)

Graphing Absolute Value Equations • Can the graph of an absolute value equation that has been translated up have x-intercepts? • Yes, when the value of . • Try this example:

Comparing to the parent graph • Graph at the same time on your calculator. • What comparison can be made? • The graph is 3 times steeper, has a phase shift two units to the right with no vertical shift or reflection when compared to the parent graph.

Comparing to the parent graph • Graph at the same time on your calculator. • What comparisons can be made? • The graph has been reflected and opens wider with a phase shift of 3 units to the left and a vertical shift down 2 units when compared to the parent graph.

Homework Assignment Page 397 1- 7 all. Graph the parent equation along with the equation given in the problem at the same time on your calculator. Then write comparison statements like those on the previous two slides.

Graphing Absolute Value Equations