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Section 1.2 Functions and Graphs Copyright ©2013, 2009, 2006, 2001 Pearson Education, Inc. Objectives Determine whether a correspondence or a relation is a function. Find function values, or outputs, using a formula or a graph. Graph functions. Determine whether a graph is that of a function. Find the domain and the range of a function. Solve applied problems using functions. Function A function is a correspondence between a first set, called the domain, and a second set, called the range, such that each member of the domain corresponds to exactly one member of the range. It is important to note that not every correspondence between two sets is a function. Example Determine whether each of the following correspondences is a function. a. This correspondence is a function 6 because each member of the 36 6 domain corresponds to exactly 3 one member of the range. The 9 definition allows more than one 3 member of the domain to 0 0 correspond to the same member of the range. Example Determine whether each of the following correspondences is a function. b. The Queen Helen Mirren Blood Diamond Jennifer Hudson Leonardo DiCaprio Dreamgirls Jamie Foxx The Departed This correspondence is not a function because there is one member of the domain (Leonardo DiCaprio) that is paired with more than one member of the range (Blood Diamond and The Departed). Relation A relation is a correspondence between the first set, called the domain, and a second set, called the range, such that each member of the domain corresponds to at least one member of the range. Example Determine whether each of the following relations is a function. Identify the domain and range. a. {(9, 5), (9, 5), (2, 4)} Not a function. Ordered pairs (9, –5) and (9, 5) have the same first coordinate and different second coordinates. Domain is the set of first coordinates: {9, 2}. Range is the set of second coordinates: {–5, 5, 4}. Example (continued) Determine whether each of the following relations is a function. Identify the domain and range. b. {(–2, 5), (5, 7), (0, 1), (4, –2)} Is a function. No two ordered pairs have the same first coordinate and different second coordinates. Domain is the set of first coordinates: {–2, 5, 0, 4}. Range is the set of second coordinates: {5, 7, 1, –2}. Example (continued) Determine whether each of the following relations is a function. Identify the domain and range. b. {(–5, 3), (0, 3), (6, 3)} Is a function. No two ordered pairs have the same first coordinate and different second coordinates. Domain is the set of first coordinates: {–5, 0, 6}. Range is the set of second coordinates: {3}. Notation for Functions The inputs (members of the domain) are values of x substituted into the equation. The outputs (members of the range) are the resulting values of y. f (x) is read “f of x,” or “f at x,” or “the value of f at x.” Example A function is given by f(x) = 2x2 x + 3. Find each of the following. a. f (0) f (0) = 2(0)2 0 + 3 = 0 – 0 + 3 = 3 b. f (–7) f (–7) = 2(–7)2 (–7) + 3 = 2 • 49 + 7 + 3 = 108 Example (continued) A function is given by f(x) = 2x2 x + 3. Find each of the following. c. f (5a) f (5a) = 2(5a)2 5a + 3 = 2 • 25a2 – 5a + 3 = 50a2 – 5a + 3 d. f (a – 4) f (a – 4) = 2(a – 4)2 (a – 4) + 3 = 2(a2 – 8a + 32) – a + 4 + 3 = 2a2 – 16a + 64 – a + 4 + 3 = 2a2 – 17a + 71 Graphs of Functions We graph functions the same way we graph equations. We find ordered pairs (x, y), or (x, f (x)), plot the points and complete the graph. Example Graph f (x) = x2 – 5 . Make a table of values. x f (x) 4 3 –1 2 –1 –4 0 5 1 4 2 3 1 4 (x, f (x)) (3, 4) (2, –1) (–1, –4) (0, 5) (1, 4) (2, 1) (3, 4) Example (continued) Graph f (x) = x3 – x . Example (continued) Graph f x x4. Example For the function f (x) = x2 – 5, use the graph to find each of the following function values. a. f (3) b. f (–2) a. Locate the input 3 on the horizontal axis, move vertically (up) to the graph of the function, then move horizontally (left) to find the output on the vertical axis. f (3) = 4 Example (cont) For the function f (x) = x2 – 5, use the graph to find each of the following function values. a. f (3) b. f (–2) b. Locate the input –2 on the horizontal axis, move vertically (down) to the graph, then move horizontally (right) to find the output on the vertical axis. f (–2) = –1 Vertical-Line Test If it is possible for a vertical line to cross a graph more than once, then the graph is not the graph of a function. Example Which of graphs (a) - (c) (in red) are graphs of functions? Yes. No. No. Example (continued) Which of graphs (d) - (f) (in red) are graphs of functions? In graph (f), the solid dot shows that (–1, 1) belongs to the graph. The open circle shows that (–1, –2) does not belong to the graph. No. Yes. Yes. Finding Domains of Functions When a function f whose inputs and outputs are real numbers is given by a formula, the domain is understood to be the set of all inputs for which the expression is defined as a real number. When an input results in an expression that is not defined as a real number, we say that the function value does not exist and that the number being substituted is not in the domain of the function. Example Find the indicated function values and determine whether the given values are in the domain of the function. 1 f (x) x3 a. f (1) 1 1 f (1) 1 3 2 Since f (1) is defined, 1 is in the domain of f. Copyright © 2009 Pearson Education, Inc. Example (cont) Find the indicated function values and determine whether the given values are in the domain of the function. 1 f (x) x3 b. f (3) 1 1 f (3) 3 3 0 Since division by 0 is not defined, f (3) does not exist and, 3 is in not in the domain of f. Copyright © 2009 Pearson Education, Inc. Example 2 3x x7 Find the domain of the function h(x) . 2 x 2x 3 We can substitute any real number in the numerator, but we must avoid inputs that make the denominator 0. Solve x2 + 2x 3 = 0. (x + 3)(x – 1) = 0 x + 3 = 0 or x – 1 = 0 x = –3 or x=1 The domain consists of the set of all real numbers except 3 and 1, or {x|x 3 and x 1}. Visualizing Domain and Range Keep the following in mind regarding the graph of a function: Domain = the set of a function’s inputs, found on the horizontal axis; Range = the set of a function’s outputs, found on the vertical axis. Example Graph the function. Then estimate the domain and range. f ( x) x4 Domain = [–4, ) Range = [0, )