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Dr. Fowler  AFM  Unit 1-2 The Graph of a Function.

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1 Dr. Fowler  AFM  Unit 1-2 The Graph of a Function

2 EXAMPLE – Identifying the Graph of a Function:
Theorem – Vertical line TEST… A set of points in the xy-plane is the graph of a function if and only if every vertical line intersects the graph in at most one point. EXAMPLE – Identifying the Graph of a Function: Which of the following are graphs of functions? A Function A Function

3 EXAMPLE – Identifying the Graph of a Function:
Which of the following are graphs of functions? Not A Function Not A Function

4 ƒ(x) = 5x + 3 ƒ(1) = 5(1) + 3 Evaluating Functions:
Output value Input value Output value Input value ƒ(x) = 5x + 3 ƒ(1) = 5(1) + 3 ƒ of x equals 5 times x plus 3. ƒ of 1 equals 5 times 1 plus 3. f(x) is not “f times x” or “f multiplied by x.” f(x) means “the value of f at x.” So f(1) represents the value of f at x =1 Caution

5 The function described by ƒ(x) = 5x + 3 is the same as the function described by y = 5x + 3. And both of these functions are the same as the set of ordered pairs (x, 5x+ 3). y = 5x (x, y) (x, 5x + 3) Notice that y = ƒ(x) for each x. ƒ(x) = 5x (x, ƒ(x)) (x, 5x + 3) The graph of a function is a picture of the function’s ordered pairs.

6 Video - Evaluating Functions: https://www. youtube. com/watch
Pay close attention. Take Notes.

7 Example 1A: Evaluating Functions
For each function, evaluate ƒ(0), ƒ , and ƒ(–2). ƒ(x) = 8 + 4x Substitute each value for x and evaluate. ƒ(0) = 8 + 4(0) = 8 ƒ = = 10 ƒ(–2) = 8 + 4(–2) = 0

8 Example 1B: Evaluating Functions
For each function, evaluate ƒ(0), ƒ , and ƒ(–2). Use the graph to find the corresponding y-value for each x-value. ƒ(0) = 3 ƒ = 0 ƒ(–2) = 4

9 For each function, evaluate ƒ(0), ƒ , and ƒ(–2).
Example – LET US ALL TRY THIS BY OURSELVES: For each function, evaluate ƒ(0), ƒ , and ƒ(–2). ƒ(x) = –2x + 1

10 Example Graph the function. Graph the points. Do not connect the points because the values between the given points have not been defined.

11 NOTES: In the notation ƒ(x), ƒ is the name of the function
NOTES: In the notation ƒ(x), ƒ is the name of the function. The output ƒ(x) of a function is called the dependent variable because it depends on the input value of the function. The input x is called the independent variable. When a function is graphed, the independent variable is graphed on the horizontal axis and the dependent variable is graphed on the vertical axis.

12 Find X Min-Max Find Y Min-Max Four times.

13 Yes

14 What are the x- and y-intercepts?
The x-intercept is where the graph crosses the x-axis. The y-coordinate is always 0 for the x-intercept. The y-intercept is where the graph crosses the y-axis. The x-coordinate is always 0 for the y-intercept. (2, 0) (0, 6)

15 Find the x- and y-intercepts. 1. x - 2y = 12
x-intercept: Plug in 0 for y. x - 2(0) = 12 x = 12; (12, 0) y-intercept: Plug in 0 for x. 0 - 2y = 12 y = -6; (0, -6)

16 Excellent Job !!! Well Done

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