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1 10/02/11 Section 1.6 Dr. Mark Faucette Department of Mathematics University of West Georgia.

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Presentation on theme: "1 10/02/11 Section 1.6 Dr. Mark Faucette Department of Mathematics University of West Georgia."— Presentation transcript:

1 1 10/02/11 Section 1.6 Dr. Mark Faucette Department of Mathematics University of West Georgia

2 2 10/02/11 Transformations of Functions How does the graph of a function change if you add a constant to the independent variable? To the dependent variable? How does the graph of a function change if you multiply a constant times the independent variable? To the dependent variable? How does the graph of a function change if you change the sign of the independent variable? Of the dependent variable?

3 3 10/02/11 Topics Vertical shifts Horizontal shifts Reflection about the x-axis Reflection about the y-axis Vertical stretching and shrinking Horizontal stretching and shrinking

4 4 10/02/11 Vertical Shifts Given the graph you get the graph by moving the first graph up k units (for k>0) Adding a constant outside the function moves the graph of the function up.

5 5 10/02/11 Vertical Shifting

6 6 10/02/11 Vertical Shifting (Continued) Given the graph you get the graph by moving the first graph down k units (for k>0) Subtracting a constant outside the function moves the graph of the function down.

7 7 10/02/11 Vertical Shifting (Continued)

8 8 10/02/11 Horizontal Shifting Given the graph you get the graph by moving the first graph left k units (for k>0) Adding a constant inside the function moves the graph of the function left.

9 9 10/02/11 Horizontal Shifting

10 10 10/02/11 Horizontal Shifting (Continued) Given the graph you get the graph by moving the first graph right k units (for k>0) Subtracting a constant inside the function moves the graph of the function right.

11 11 10/02/11 Horizontal Shifting (Continued)

12 12 10/02/11 Reflections about the x-axis Given the graph you get the graph by reflecting the first graph across the x-axis. Changing y to  y reflects the graph across the x-axis.

13 13 10/02/11 Reflections about the x-axis

14 14 10/02/11 Reflections about the y-axis Given the graph you get the graph by reflecting the first graph across the y-axis. Changing x to  x reflects the graph across the y-axis.

15 15 10/02/11 Reflections about the y-axis

16 16 10/02/11 Vertical Stretching Given the graph you get the graph by stretching the first graph vertically by a factor of k. Multiplying y by k>1 stretches the graph vertically by a factor of k.

17 17 10/02/11 Vertical Stretching

18 18 10/02/11 Vertical Shrinking Given the graph you get the graph by shrinking the first graph vertically by a factor of k. Multiplying y by 0<k<1 shrinks the graph vertically by a factor of k.

19 19 10/02/11 Vertical Shrinking

20 20 10/02/11 Horizontal Stretching Given the graph you get the graph by stretching the first graph horizontally by a factor of k. Multiplying x by 0<k<1 stretches the graph horizontally by a factor of k.

21 21 10/02/11 Horizontal Stretching

22 22 10/02/11 Horizontal Shrinking Given the graph you get the graph by shrinking the first graph horizontally by a factor of k. Multiplying x by k>1 shrinks the graph horizontally by a factor of k.

23 23 10/02/11 Horizontal Shrinking

24 24 10/02/11 Why Are We Learning This? Question: Why do we have to know this when our very expensive graphing calculator will graph for us? Answer: You need to have some idea what the graph should look like in case you enter the function incorrectly into your graphing calculator. In other words, garbage in, garbage out

25 25 10/02/11 Summary We have learned about vertical and horizontal shifting We have learned about vertical and horizontal stretching and shrinking We have learned about reflections about both axes

26 26 10/02/11 Things To Do Reread Section 1.6 Do the homework for Section 1.6 Read Section 1.7

27 27 10/02/11 One More Thing... Have a nice day

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