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Library of Functions You should be familiar with the shapes of these basic functions. We'll learn them in this section.

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Presentation on theme: "Library of Functions You should be familiar with the shapes of these basic functions. We'll learn them in this section."— Presentation transcript:

1 Library of Functions You should be familiar with the shapes of these basic functions. We'll learn them in this section.

2 Linear Functions Equations that can be written f(x) = mx + b The domain of these functions is all real numbers. slope y-intercept

3 Constant Functions f(x) = b, where b is a real number The domain of these functions is all real numbers. The range will only be b f(x) = 3f(x) = -1f(x) = 1 Would constant functions be even or odd or neither?

4 Identity Function f(x) = x, slope 1, y-intercept = 0 The domain of this function is all real numbers. The range is also all real numbers f(x) = x Would the identity function be even or odd or neither? If you put any real number in this function, you get the same real number “back”.

5 Square Function f(x) = x 2 The domain of this function is all real numbers. The range is all NON-NEGATIVE real numbers Would the square function be even or odd or neither?

6 Cube Function f(x) = x 3 The domain of this function is all real numbers. The range is all real numbers Would the cube function be even or odd or neither?

7 Square Root Function The domain of this function is NON-NEGATIVE real numbers. The range is NON-NEGATIVE real numbers Would the square root function be even or odd or neither?

8 Reciprocal Function The domain of this function is all NON-ZERO real numbers. The range is all NON-ZERO real numbers. Would the reciprocal function be even or odd or neither?

9 Absolute Value Function The domain of this function is all real numbers. The range is all NON-NEGATIVE real numbers Would the absolute value function be even or odd or neither?

10 WISE FUNCTIONS These are functions that are defined differently on different parts of the domain.

11 This means for x’s less than 0, put them in f(x) = -x but for x’s greater than or equal to 0, put them in f(x) = x 2 What does the graph of f(x) = -x look like? Remember y = f(x) so let’s graph y = - x which is a line of slope –1 and y-intercept 0. Since we are only supposed to graph this for x< 0, we’ll stop the graph at x = 0. What does the graph of f(x) = x 2 look like? Since we are only supposed to graph this for x  0, we’ll only keep the right half of the graph. Remember y = f(x) so lets graph y = x 2 which is a square function (parabola) This then is the graph for the piecewise function given above.

12 For x values between –3 and 0 graph the line y = 2x + 5. Since you know the graph is a piece of a line, you can just plug in each end value to get the endpoints. f(-3) = -1 and f(0) = 5 For x = 0 the function value is supposed to be –3 so plot the point (0, -3) For x > 0 the function is supposed to be along the line y = - 5x. Since you know this graph is a piece of a line, you can just plug in 0 to see where to start the line and then count a – 5 slope. So this the graph of the piecewise function solid dot for "or equal to" open dot since not "or equal to"


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