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1. INPUT AND OUTPUT Chapter 2 Section 1 2 You will remember the following problem from Chapter 1, Section 1: 3Page 62.

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Presentation on theme: "1. INPUT AND OUTPUT Chapter 2 Section 1 2 You will remember the following problem from Chapter 1, Section 1: 3Page 62."— Presentation transcript:

1 1

2 INPUT AND OUTPUT Chapter 2 Section 1 2

3 You will remember the following problem from Chapter 1, Section 1: 3Page 62

4 The number of gallons of paint needed to paint a house depends on the size of the house. A gallon of paint typically covers 250 square feet. Thus, the number of gallons of paint, n, is a function of the area to be painted, A ft 2. We write n = f(A). Which is the output and which is the input for: n = f(A) ? 4Page 62

5 A reminder from Chapter 1: Output = f(Input) Or: Dependent = f(Independent) 5Page 4

6 Which is the output and which is the input for: n = f(A) ? 6Page 62

7 Which is the output and which is the input for: n = f(A) ? n=f(A) => output, A => input 7Page 62

8 n=f(A) => output, A => input For example, f(20,000) represents ? 8Page 62

9 n=f(A) => output, A => input f(20,000) represents the # of gallons of paint to cover a house of 20,000 sq ft. (ft 2 ) 9Page 62

10 Using the fact that 1 gallon of paint covers 250 ft 2, evaluate the expression f(20,000). 10Page 62 Example 1

11 11Page 62

12 12Page 62

13 13Page 62

14 14Page 62

15 15Page 62

16 Area of a circle of radius r: A = q(r) = πr 2. Use the formula to evaluate q(10) and q(20). What do your results tell you about circles? 16Page 62 Example 2

17 Area of a circle of radius r: A = q(r) = πr 2. Use the formula to evaluate q(10) and q(20). 17Page 62

18 Area of a circle of radius r: A = q(r) = πr 2. Use the formula to evaluate q(10) and q(20). 18Page 62

19 Area of a circle of radius r: A = q(r) = πr 2. Use the formula to evaluate q(10) and q(20). 19Page 62

20 Area of a circle of radius r: A = q(r) = πr 2. Use the formula to evaluate q(10) and q(20). 20Page 62

21 Area of a circle of radius r: A = q(r) = πr 2. What do your results tell you about circles? 21Page N/A

22 Area of a circle of radius r: A = q(r) = πr 2. What do your results tell you about circles? If we increase the radius by 2x (factor of 2), we increase the Area by 4x (factor of 4). Or, we double r  we quadruple A. 22Page N/A

23 Let: Evaluate: g(3), g(-1), g(a) 23Page 62 Example 3

24 g(3): 24Page 62

25 g(-1): 25Page 62

26 g(a): 26Page 62

27 Let h(x) = x 2 − 3x + 5. Evaluate and simplify the following expressions. (a) h(2) (b) h(a − 2) (c) h(a) − 2 (d) h(a) − h(2) 27Page 63 Example 4

28 h(2): 28Page 63

29 h(2): 29Page 63

30 h(a-2): 30Page 63

31 h(a-2): 31Page 63

32 h(a)-2: 32Page 63

33 h(a)-2: 33Page 63

34 h(a)-h(2): 34Page 63

35 h(a)-h(2): 35Page 63

36 Finding Input Values: Solving Equations Given an input, we evaluate the function to find the output. (Input  Output) Sometimes the situation is reversed; we know the output and we want to find the corresponding input. (Output  Input) 36Page 63

37 Back to the "Cricket" function, but now if T = 76, R = ? 37Page 63 Example 5

38 38Page 63

39 Area of a circle of radius r (cm.): A = q(r) = πr 2. What is the radius of a circle whose area is 100 cm 2 ? 39Page64 Example 7

40 40Page 64

41 Since a circle CAN'T have a negative radius, we conclude: 41Page 64

42 Finding Output and Input Values from Tables and Graphs 42Page 64

43 Table 2.1 shows the revenue, R = f(t), received or expected, by the National Football League, 1 NFL, from network TV as a function of the year, t, since 1975.2.1 1 (a) Evaluate and interpret f(25). (b) Solve and interpret f(t) = 1159. 43Page 64 Example 8

44 R = f(t) (a) Evaluate and interpret f(25). (b) Solve and interpret f(t) = 1159. Year, t (since 1975) 051015202530 Revenue, R (million $) 201364651107511592200 44Page 64

45 R = f(t) (a) Evaluate and interpret f(25). f(25) = 2200. Therefore, in 2000 (1975+25), revenue was $2,200 million. Year, t (since 1975) 051015202530 Revenue, R (million $) 201364651107511592200 45Page 65

46 R = f(t) (b) Solve and interpret f(t) = 1159. Year, t (since 1975) 051015202530 Revenue, R (million $) 201364651107511592200 46Page 65

47 R = f(t) (b) Solve and interpret f(t) = 1159. When were Revenues $1159 million? Year, t (since 1975) 051015202530 Revenue, R (million $) 201364651107511592200 47Page 65

48 R = f(t) When were Revenues $1159 million? t=20. Therefore, 1995. Year, t (since 1975) 051015202530 Revenue, R (million $) 201364651107511592200 48Page 65

49 End of Section 2.1 49

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