1. 5-Minute Check on Activity 4-8 Click the mouse button or press the Space Bar to display the answers. 1.What point does a direct variation graph always goes through? 2.If y varies directly as x and y is 4 when x is 1, what is y when x is 4? 3.If y varies directly as x and y is 2 when x is 6, what is y when x is 9? 4.What is the model, if y varies directly as x and y=3 when x=2? 5.Is the y = 3x + 1 a direct variation model? origin (0,0) y = kx 4 = k(1) k = 4 y = 4x so if x = 4 then y = 16 y = kx 2 = k(6) k = 1/3 y = (1/3)x so if x = 9 then y = 3 y = (3/2)x No! + 1 is not part of direct variation; graphically doesn’t go through origin

2. Activity 4 - 9 The Power of Power Functions

3. Objectives Identify a direct variation function Determine the constant of variation Identify the properties of graphs of power functions defined by y = kx n, where n is a positive integer, k ≠ 0 Graph transformations of power functions

4. Vocabulary Direct Variation – equations in the form of y = kx n ; Constant of variation – also called the constant of proportionality, k Power Functions – another name for direct variation; when n is even they resemble parabolas; when k is odd, they resemble y = kx 3

5. Activity You are traveling in a hot air balloon when suddenly your binoculars drop from the edge of the balloon’s basket. At that moment, the balloon is maintaining a constant height of 500. The distance of the binoculars from the edge of the basket is modeled by s = 16t 2 (like we have seen earlier in this chapter)

6. Activity cont You are traveling in a hot air balloon when suddenly your binoculars drop from the edge of the balloon’s basket. At that moment, the balloon is maintaining a constant height of 500. The distance of the binoculars from the edge of the basket is modeled by s = 16t 2 (like we have seen earlier in this chapter) Fill in the following table: How long till they hit the river? Time, t0123456 Distance, s 01664144256400576 between 5 and 6 seconds

7. Activity cont As time triples from 1 to 3, what happens to s? As time quadruples from 1 to 4, what happens to s? In general, if y varies directly as the square of x, then when x becomes n times as large, the corresponding y- values become times as large. Time, t0123456 Distance, s01664144256400576 between 5 and 6 seconds n2n2

8. Power Functions Definition: Equations in the form of y = kx n where k ≠ 0 and n is a positive integer, defines a direct variation function in which y varies directly as x n. The constant, k, is called the constant of variation or the constant of proportionality. Shapes below: y x y x Graph: k is positive ── k is negative - - - n is odd Graph: k is positive ── k is negative - - - n is odd

9. Volume of a Sphere Fill in the table below for V = (4/3) π r 3 a) As r doubles from 2 to 4 and from 4 to 8, the corresponding V-values become ____ times as large. b) In general, if y varies directly as the cube of x, then when x becomes n times as large, the corresponding y- values become _____ times as large. Radius, r12348 Volume, V (4/3)π (32/3)π 36π (256/3)π (2048/3)π 8 n3n3

10. Direct Variation Examples Fill in the Tables, figure out the constant k of variation, and write the direct variation equation for each table. a) y varies directly as x b) y varies directly as x 3 c) y varies directly as x x124812 y x12345 y3 x123 y32 6 24 48 72 y = kx 12 = 2k k = 6 y = 6x 4 108 y = kx 3 32 = k2 3 k = 4 y = 4x 3 1 2 4 5 y = kx 3 = 3k k = 1 y = x

11. Skid Marks The length, L, of skid distance left by a car varies directly as the square of the initial velocity, v (in mph), of the car. Suppose a car traveling at 40 mph leaves a skid distance of 60 feet. a) Write the general equation b) Solve for k c) Estimate the skid length left by a car traveling at 60 mph L = kv 2 L = kv 2 60 = k(40) 2 60 = 1600k 0.0375 = k L = 0.0375v 2 L = 0.0375(60) 2 L = 135 feet

12. Power Functions Definition: Equations in the form of y = kx n where k ≠ 0 and n is a positive integer, defines a direct variation function in which y varies directly as x n. The constant, k, is called the constant of variation or the constant of proportionality. Shapes below: y x y x Graph: k is positive ── k is negative - - - n is odd Graph: k is positive ── k is negative - - - n is odd

13. Power Function Graphs Examine the graphs of the following power functions: y x y x y x y x y x y x y = xy = x 2 y = x 3 y = x 4 y = -x 5 y = -x 6

14. Closer examination with Calculator Lets look at each of the power functions on the previous slide with smaller x-windows to observe the behavior around the turning point. What is the basic shape of the graphs with n = even power n = odd power? What happens to the graph around the turning point as n gets larger? “U” shaped “hill-ledge-hill” Around the turning point it tends to flatten out more. Away from the turning point its much steeper sides.

15. Identify Power Function Graphs Match the function with the graph: 1) y = x 2 + 1 2) y = -2x 4 3) y = 3x 8 + 1 4) y = -2x 5 5) y = x 10 6) y = 5x 3 + 2 y x y x y x y x y x y x A B C D E F

16. Summary and Homework Summary –Equations of direct variation can be in the form of y = kx n, where k ≠ 0 and n is a positive integer –These equations are also called power functions Graphs of power functions where n is even resemble parabolas (U shaped graphs). As n increases in value, the graph flattens out more near the vertex. If k is positive, then the graph opens up; if k is negative, then it opens down. Graphs of power functions where n is odd resemble the graph of y = kx 3. If k is positive, then the graph is increasing; if k is negative, then decreasing. Homework –pg 485 – 487; problems 1, 3-5, 12-14