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2. 1.5 GEOMETRIC PROPERTIES OF LINEAR FUNCTIONS 2

3. Interpreting the Parameters of a Linear Function The slope-intercept form for a linear function is y = b + mx, where b is the y-intercept and m is the slope. The parameters b and m can be used to compare linear functions. 3Page 35

4. W ith time, t, in years, the populations of four towns, P A, P B, P C and P D, are given by the following formulas: P A =20,000+1,600t, P B =50,000-300t, P C =650t+45,000, P D =15,000(1.07) t (a) Which populations are represented by linear functions? (b) Describe in words what each linear model tells you about that town's population. Which town starts out with the most people? Which town is growing fastest? 4Page 35 Example 1

5. P A =20,000+1,600t, P B =50,000-300t, P C =650t+45,000, P D =15,000(1.07) t (a) Which populations are represented by linear functions? 5Page 35

6. P A =20,000+1,600t, P B =50,000-300t, P C =650t+45,000, P D =15,000(1.07) t (a) Which populations are represented by linear functions? Which of the above are of the form: y = b + mx (or here, P = b + mt)? 6Page 35

7. P A =20,000+1,600t, P B =50,000-300t, P C =650t+45,000, P D =15,000(1.07) t (a) Which populations are represented by linear functions? Which of the above are of the form: y = b + mx (or here, P = b + mt)? A, B and C 7Page 35

8. W ith time, t, in years, the populations of four towns, P A, P B, P C and P D, are given by the following formulas: P A =20,000+1,600t, P B =50,000-300t, P C =650t+45,000, P D =15,000(1.07) t (b) Describe in words what each linear model tells you about that town's population. Which town starts out with the most people? Which town is growing fastest? 8Page 35

9. P A = 20,000 + 1,600t when t=0: 20,000 grows: 1,600 / yr b m P B = 50,000 + (-300t) when t=0: 50,000 shrinks: 300 / yr b m P C = 45,000 + 650t when t=0: 45,000 grows: 650 / yr b m P D = 15,000(1.07) t when t=0: 15,000 grows: 7% / yr 9Page 35

10. Let y = b + mx. Then the graph of y against x is a line.  The y-intercept, b, tells us where the line crosses the y-axis.  If the slope, m, is positive, the line climbs from left to right. If the slope, m, is negative, the line falls from left to right.  The slope, m, tells us how fast the line is climbing or falling.  The larger the magnitude of m (either positive or negative), the steeper the graph of f. 10Page 36 Blue Box

11. (a) Graph the three linear functions P A, P B, P C from Example 1 and show how to identify the values of b and m from the graph.1 (b) Graph P D from Example 1 and explain how the graph shows P D is not a linear function.1 11Page 36 Example 2

12. Note vertical intercepts. Which are climbing? Which are climbing the fastest? Why? 12Page 36

13. A 13Page 36

14. Intersection of Two Lines To find the point at which two lines intersect, notice that the (x, y)-coordinates of such a point must satisfy the equations for both lines. Thus, in order to find the point of intersection algebraically, solve the equations simultaneously. If linear functions are modeling real quantities, their points of intersection often have practical significance. Consider the next example. 14Page 37

15. The cost in dollars of renting a car for a day from three different rental agencies and driving it d miles is given by the following functions: C 1 = 50 + 0.10d, C 2 = 30 + 0.20d, C 3 = 0.50d (a) Describe in words the daily rental arrangements made by each of these three agencies. (b) Which agency is cheapest? 15Page 37 Example 3

16. C 1 = 50 + 0.10d, C 2 = 30 + 0.20d, C 3 = 0.50d (a) Describe in words the daily rental arrangements made by each of these three agencies. C 1 charges $50 plus $0.10 per mile driven. C 2 charges $30 plus $0.20 per mile. C 3 charges $0.50 per mile driven. 16Page 37

17. A C1C1 C2C2 C3C3 What are the points of intersection? 17Page

18. C 1 = 50 + 0.10d, C 2 = 30 + 0.20d, C 3 = 0.50d 18Page 37

19. C 1 = 50 + 0.10d, C 2 = 30 + 0.20d, C 3 = 0.50d 19Page 37

20. C 1 = 50 + 0.10d, C 2 = 30 + 0.20d, C 3 = 0.50d 20Page 37

21. A C1C1 C2C2 C3C3 21Page 38

22. A C1C1 C2C2 C3C3 Thus, agency 3 is cheapest up to 100 miles. 22Page 38

23. A C1C1 C2C2 C3C3 Agency 1 is cheapest for more than 200 miles. 23Page 38

24. A C1C1 C2C2 C3C3 Agency 2 is cheapest between 100 and 200 miles. 24Page 38

25. Equations of Horizontal and Vertical Lines An increasing linear function has positive slope and a decreasing linear function has negative slope. What about a line with slope m = 0? 25Page 38

26. Equations of Horizontal and Vertical Lines An increasing linear function has positive slope and a decreasing linear function has negative slope. What about a line with slope m = 0? If the rate of change of a quantity is zero, then the quantity does not change. Thus, if the slope of a line is zero, the value of y must be constant. Such a line is horizontal. 26Page 38

27. Plot the points: (-2, 4) (-1,4) (1,4) (2,4) 27Page 38

28. A The equation y = 4 represents a linear function with slope m = 0. 28Page 38

29. Plot the points: (-2, 4) (-1,4) (1,4) (2,4) Let's verify by using any two points- Let's use (-2,4) & (1,4): 29Page 38

30. Plot the points: (-2, 4) (-1,4) (1,4) (2,4) Let's verify by using any two points- Let's use (-2,4) & (1,4): 30Page 38

31. Plot the points: (-2, 4) (-1,4) (1,4) (2,4) Let's verify by using any two points- Let's use (-2,4) & (1,4): 31Page 38

32. Now plot the points: (4,-2) (4,-1) (4,1) (4,2) 32Page 38

33. A The equation x = 4 does not represent a linear function with slope m = undefined. 33Page 38

34. Now plot the points: (4,-2) (4,-1) (4,1) (4,2) Let's verify by using any two points- Let's use (4,-2) & (4,1): 34Page 38

35. Now plot the points: (4,-2) (4,-1) (4,1) (4,2) Let's verify by using any two points- Let's use (4,-2) & (4,1): 35Page 38

36. Now plot the points: (4,-2) (4,-1) (4,1) (4,2) Let's verify by using any two points- Let's use (4,-2) & (4,1): 36Page 38

37. F or any constant k: The graph of the equation y = k is a horizontal line and its slope is zero. The graph of the equation x = k is a vertical line and its slope is undefined. 37Page 39 Blue Box

38. Slope of Parallel (||) & Perpendicular ( ) lines: || lines have = slopes, while lines have slopes which are the negative reciprocals of each other. So if l 1 & l 2 are 2 lines having slopes m 1 & m 2, respectively. Then: these lines are || iff m 1 = m 2 these lines are iff m 1 = - 1 / m 2 38Page 39 Blue Box

39. So if l 1 & l 2 are 2 lines having slopes m 1 & m 2, respectively. Then: these lines are || iff m 1 = m 2 these lines are iff m 1 = - 1 / m 2 39 Page 39

40. Are these 2 lines || or or neither? y = 4+2x, y = -3+2x 40 Page N/A

41. Are these 2 lines || or or neither? y = 4+2x, y = -3+2x Parallel (m = 2 for both) 41 Page N/A

42. Are these 2 lines || or or neither? y = -3+2x, y = -.1 -(1/2)x 42 Page N/A

43. Are these 2 lines || or or neither? y = -3+2x, y = -.1 -(1/2)x : m 1 = 2, m 2 = -(1/2) 43 Page N/A

44. End of Section 1.5. 44