1 / 17

AP Calculus AB/BC

AP Calculus AB/BC. 1.2 Functions, p. 12. D = Domain. R = Range. D = Domain. R = Range. Engineers use functions to optimize designs in both form and function. Definition: Function

coxpeter
Download Presentation

AP Calculus AB/BC

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. AP Calculus AB/BC 1.2 Functions, p. 12

  2. D = Domain R = Range D = Domain R = Range Engineers use functions to optimize designs in both form and function. Definition: Function A function is a rule (usually an equation) that assigns a unique value in the Range, R, to each value in the Domain, D. Function Not a Function A function is written using the notation y = f(x). (Read “f of x”.) This giving different functions different names.

  3. 0 Notation: a Notation: Notation: a Sometimes, the domain and range of a function is stated, especially when the domain has to be restricted. Intervals may be open, closed or half-open, and finite or infinite. Name: The set of all real numbers Name: The set of numbers greater than a Name: The set of numbers greater than or equal to a

  4. Notation: b Notation: b Sometimes, the domain and range of a function is stated, especially when the domain has to be restricted. Intervals may be open, closed or half-open, and finite or infinite. Name: The set of numbers less than b Name: The set of numbers less than or equal b

  5. a b Notation: Notation: a b Sometimes, the domain and range of a function is stated, especially when the domain has to be restricted. Intervals may be open, closed or half-open, and finite or infinite. Name: Open interval ab Closed at a and open at b

  6. Notation: Notation: a a b b Sometimes, the domain and range of a function is stated, especially when the domain has to be restricted. Intervals may be open, closed or half-open, and finite or infinite. Name: Closed interval ab Open at a and closed at b

  7. Example 2 For each function do the following: (a) Find the domain. (b) Find the range. (c) Draw the graph. (c) (a) Since the square root function can’t be negative, x > 1. Or, in interval notation D: [1,∞]. (b) Since the domain has to start at 0 or greater, the range has to start at 2 and increases. Or interval notation R: [2,∞].

  8. Example 2 For each function do the following: (a) Find the domain. (b) Find the range. (c) Draw the graph. (c) (a) Since x is in the denominator, x≠ 0. Or, in interval notation D: (−∞, 0) U (0, ∞). (b) Since x2 is always positive, yis always positive and y > 1. Or, in interval notation R: (1, ∞).

  9. Even and Odd Functions If f(x) is a function, thenfor every x in the domain of f(x),f(x) is an: Even function when f(−x) =f(x) For example, If f(x) =x2, then f(−x) = (−x)2 = x2 = x2. Odd function when f(−x) =−f(x) For example, If f(x) =x3, then f(−x) = (−x)3 = −x3.

  10. Example 4 Determine whether each function is even, odd, or neither. Find f(−x) by substituting −xinto f(x). Since f(−x) = f(x), f(x) is even.

  11. Example 4 Determine whether each function is even, odd, or neither. Find f(−x) by substituting −xinto f(x). Since f(−x) ≠f(x) ≠ −f(x) , f(x) is neither even nor odd.

  12. Example 5 Piecewise Functions Graph the piecewise defined function. First graph y = 3 – x with x = 1 as the endpoint. When x = 1,y = 3 – 1 = 2. Also, the y-intercept is 3. And, since x≤ 1, the line is drawn in the negative direction. Next, graph y = 2x with x = 1 as the endpoint. When x = 1,y = 2 ∙ 1 = 2. Also, the slope is 2. And, since x > 1, the line is drawn in the positive direction.

  13. The slope is and the y-intercept is . So Example 6 Write a piecewise formula for the graph. The first piece goes from 0, non-inclusive, to 2, inclusive. 2 (2, 1) The slope is −1 and the y-intercept is 2. So y = −x + 2 2 The second piece goes from 2, non-inclusive, to 5, inclusive. −x + 2, 2 < x≤5

  14. is defined as: The Absolute Value Function The graph of│x│ is made up of two straight lines. When x < 0, the function starts at 0 and goes up with a slope of −1. When x > 0, the function starts at 0 and goes up with a slope of 1.

  15. Composite Functions We say that the function f(g(x)), read as “fof g of x”, is the composite of g and f. The usual notation is f○g, which of read “f of g. Thus, the value of f○g at x is (f ○ g )(x) = f(g(x)).

  16. Example 8 Let f(x) = x + 5 and g(x) = x2 – 3. Find f(g(x)). f(g(x)) is found by substituting the expression for g(x) into the x inside of f(x). f(g(x)) = ( ) + 5 x2 – 3 = x2 + 2

  17. Now it’s your turn. Let f(x) = x + 5 and g(x) = x2 – 3. Find g(f(x)). g(f(x)) is found by substituting the expression for f(x) into the x inside of g(x). f(g(x)) = ( )2 – 3 x + 5 = x2 + 10x + 25 – 3 = x2 + 10x + 22 p

More Related