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Chapter 1

Chapter 1. Prerequisites for Calculus. 1.2. Functions and Graphs. Quick Review. Quick Review. Quick Review. Quick Review Solutions. Quick Review Solutions. Quick Review Solutions. What you’ll learn about…. Functions Domains and Ranges Viewing and Interpreting Graphs

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Chapter 1

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  1. Chapter 1 Prerequisites for Calculus

  2. 1.2 Functions and Graphs

  3. Quick Review

  4. Quick Review

  5. Quick Review

  6. Quick Review Solutions

  7. Quick Review Solutions

  8. Quick Review Solutions

  9. What you’ll learn about… • Functions • Domains and Ranges • Viewing and Interpreting Graphs • Even Functions and Odd functions - Symmetry • Functions Defined in Pieces • Absolute Value Function • Composite Functions …and why Functions and graphs form the basis for understanding mathematics applications.

  10. Functions A rule that assigns to each element in one set a unique element in another set is called a function. A function is like a machine that assigns a unique output to every allowable input. The inputs make up the domain of the function; the outputs make up the range.

  11. Function A function from a set D to a set R is a rule that assigns a unique element in R to each element in D. In this definition, D is the domain of the function and R is a set containing the range.

  12. Function

  13. Example Functions

  14. Domains and Ranges

  15. Domains and Ranges

  16. Domains and Ranges • The domains and ranges of many real-valued functions of a real variable are intervals or combinations of intervals. The intervals may be open, closed or half-open, finite or infinite. • The endpoints of an interval make up the interval’s boundary and are called boundary points. • The remaining points make up the interval’s interior and are called interior points.

  17. Domains and Ranges • Closed intervals contain their boundary points. • Open intervals contain no boundary points

  18. Domains and Ranges

  19. Graph

  20. Example Finding Domains and Ranges [-10, 10] by [-5, 15]

  21. Viewing and Interpreting Graphs • Recognize that the graph is reasonable. • See all the important characteristics of the graph. • Interpret those characteristics. • Recognize grapher failure. Graphing with a graphing calculator requires that you develop graph viewing skills.

  22. Viewing and Interpreting Graphs Being able to recognize that a graph is reasonable comes with experience. You need to know the basic functions, their graphs, and how changes in their equations affect the graphs. Grapher failure occurs when the graph produced by a grapher is less than precise – or even incorrect – usually due to the limitations of the screen resolution of the grapher.

  23. Example Viewing and Interpreting Graphs [-10, 10] by [-10, 10]

  24. Even Functions and Odd Functions-Symmetry • The graphs of even and odd functions have important symmetry properties.

  25. Even Functions and Odd Functions-Symmetry • The graph of an even function is symmetric about the y-axis. A point (x,y) lies on the graph if and only if the point (-x,y) lies on the graph. • The graph of an odd function is symmetric about the origin. A point (x,y) lies on the graph if and only if the point (-x,-y) lies on the graph.

  26. Example Even Functions and Odd Functions-Symmetry

  27. Example Even Functions and Odd Functions-Symmetry

  28. Functions Defined in Pieces • While some functions are defined by single formulas, others are defined by applying different formulas to different parts of their domain. • These are called piecewise functions.

  29. Example Graphing a Piecewise Defined Function [-10, 10] by [-10, 10]

  30. Absolute Value Functions The function is even, and its graph is symmetric about the y-axis

  31. Composite Functions

  32. Example Composite Functions

  33. 1.3 Exponential Functions

  34. Quick Review

  35. Quick Review

  36. Quick Review Solutions

  37. Quick Review Solutions

  38. What you’ll learn about… • Exponential Growth • Exponential Decay • Applications • The Number e …and why Exponential functions model many growth patterns.

  39. Exponential Function

  40. Exponential Growth

  41. Exponential Growth

  42. Rules for Exponents

  43. Half-life Exponential functions can also model phenomena that produce decrease over time, such as happens with radioactive decay. The half-life of a radioactive substance is the amount of time it takes for half of the substance to change from its original radioactive state to a non-radioactive state by emitting energy in the form of radiation.

  44. Exponential Growth and Exponential Decay

  45. Example Exponential Functions [-5, 5], [-10,10]

  46. The Number e

  47. The Number e

  48. Example The Number e [0,100] by [0,120] in 10’s

  49. Quick Quiz Sections 1.1 – 1.3

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